ML20207J486

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Reactor Containment Bldg Integrated Leak Rate Test
ML20207J486
Person / Time
Site: Brunswick Duke Energy icon.png
Issue date: 05/31/1986
From: Blessing J, Blinson M, Shiek R
CAROLINA POWER & LIGHT CO.
To:
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ML20207J465 List:
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NUDOCS 8607290143
Download: ML20207J486 (102)
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SkDNSWICK STEAM ELECTRIC PLANT UNIT NO. 2 REACMR CONTAINMENT BUILDING INTEGRATED LEAK RATE TEST MAY 1986 l

i CAROLINA POWER & LIGHT COMPANY t

Prepared by: John J. Blessing Reviewed by: .

ILRT Engineer Approved by: . h[uAAh/ /

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! 0607290143 860724 PDR ADOCK 05000324 P PDR 1

TABLE OF CONTENTS Sect. Item Title Page 1.0 SYNOPSIS 1

2.0 INTRODUCTION

2 3.0 GENERAL, TECHNICAL, AND TEST DATA 3 3.1 GENERAL DATA 3 3.2 ' TECHNICAL DATA 3 3.3 TEST DATA 3 4.0 ACCEPTANCE CRITERIA 5 4.1 TECHNICAL SPECIFICATION ACCEPTANCE CRITERIA 5 4.2 REDUCED DURATION TESTING ACCEPTANCE CRITERIA 5 5.0 TEST INSTRUMENTATION 6 5.1

SUMMARY

OF INSTRUMENTS 6 5.2 SCHEMATIC ARRANGEMENT 7 5.3 CALIBRATION CHECKS 7 5.4 INSTRUMENTATION PERFORMANCE 7 5.5 VOLUME WEIGHTING FACTORS 8 5.6 SYSTEMATIC ERROR ANALYSIS 9 5.7 SUPPLEMENTAL VERIFICATION 12 6.0 TEST PROCEDURE 13 6.1 PREREQUISITES 13 6.2 GENERAL DISCUSSION 13 6.3 TEST PERFORMANCE 15 7.0 METHODS OF ANALYSIS 18 7.1 GENERAL DISCUSSION 18 7.2 STATISTICAL EVALUATION 21 8.0 DISCUSSION OF RESULTS 23 8.1 RESULTS AT P 23 8.2 SUPPLEMENTAL

  • TEST RESULTS 26 8.3 AS POUND ANALYSIS 27

9.0 REFERENCES

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1 1.0 SYNOPSIS The Brunswick Steam Electric Plant Unit No. 2 reactor containment building was subjected to a periodic integrated leak rate test during the period of May 3 to May 5, 1986. The purpose of this test was to demonstrate the acceptability of the building leakage rate at an internal pressure of 49.0 psig (P ). Testing was performed in accordance with the requirements of 10CFR50, Appendix J, ANSI N45.4-1972, Bechtel Topical Report BN-TOP-1 and Brunswick Steam Electric Plant Unit No. 2 Technical Specifications.

The Mass Point method of analysis resulted in a measured leakage rate of 0.186% by weight per day at 49.0 psig. The leakage rate at the upper bound of the 95% confidence interval was 0.191% by weight per day. A correction factor of 0.003 percent by weight per day for 11 penetrations which were not vented for the test must be added to the test results.

Therefore, the leakage rate at the upper bound of the 95 percent confidence interval is 0.194 percent by weight per day which is below the allowable leakage rate of 0.375 percent by' weight per day.

Utilizing the Total Time method of analysis, the calculated leakage rate was found to be 0.172% by weight per day and 0.237% by weight per day at the upper bound of the 95% confidence interval at the 49 psig pressure level. The mean of the measured leak rates based on the total time calculations for the last five hours of test was 0.199% by weight per day. With the addition of the Type C penalty the leakage rate at the upper bound of the 95 percent confidence interval is 0.240 percent by weight per day. All total time analyses are below the allowable leakage rate of 0.375 percent by weight per day and meet the criteria set forth in Bechtel Topical Report BN-TOP-1 for conduct of a reduced duration integrated leakage rate test.

Using the minimum pathway leakage analysis to determine the "as found" reactor containment integrated leakage rate indicates that the acceptance criteria would have been exceeded. This was due to two penetrations that could not be pressurized during local leakage rate testing and required maintenance to be performed.

l demonstrated an The supplemental agreement instrumentation between measured verificationbuilding reactor containment test at P, integrated i ,

leakage rates of 2% using the Mass Point method and 8.6% using the Total l Time method which are within the 25% requirement of 10CFR50, Appendix J,

! Section III A.3.b.

. Testing was performed by Carolina Power and Light Company with the

! technical assistance of United Energy Services Corporation. Procedural l and calculational methods were witnessed by Nuclear Regulatory Commission personnel.

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2.0 INTRODUCTION

The objective of the integrated leak rate test was the establishment of the degree of overall leak tightness of the reactor containment building at the calculated design basis accident pressure of 49.0 psig. The allbwable leakage is defined by the design basis accident applied in the safety analysis in accordance with site exposure guidelines specified by 10CFR100. For Brunswick Steam Electric Plant Unit No. 2, the maximum allowable integrated leak rate at the design basis accident pressure of 49.0 psig (P,) is 0.5% by weight per day (L,).

Testing was performed in accordance with the procedural requirements as stated in Brunswick Steam Electric Plant Integrated Primary Containment Leak Rate Test Procedure PT-20.5. This procedure received two independent technical safety reviews and was approved by the Manager, Technical Support prior to the commencement of the test.

Leakage rate testing was accomplished at the pressure level of 49.0 psig for a period of 8.0 hours0 days <br />0 hours <br />0 weeks <br />0 months <br />. The 8.0 hour0 days <br />0 hours <br />0 weeks <br />0 months <br /> period was followed by a one hour stabilization period and 4.0 hour0 days <br />0 hours <br />0 weeks <br />0 months <br /> supplanental test for a verification of test instrumentation.

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3 3.0 GENERAL, TECHNICAL, AND TEST DATA 3.1 GENERAL DATA Owner: Carolina Power & Light Docket No. 50-324 Location: Southport, North Carolina Type Mark 1, BWR-4 Containment

Description:

Steel lined, reinforced concrete,

' light bulb' shaped drywell with torus shaped suppression chamber connected by a vent system. Vacuum breakers are provided between the suppression chamber and both the drywell and reactor building.

Date Test Completed: May 5, 1986 3.2 TECHNICAL DATA Containment Net Free Volume 294,981 cubic feet Design Pressure: 62 psig Design Temperature: 300 F (drywell), 220 F (suppression chamber)

Calculated Accident Peak Pressure: 49.0 psig Calculated Accident Peak Temperature 297 F 3.3 TEST DATA Test Method: Absolute Data Analysis Mass Point and Total Time Test Pressure: 63.7 psia Max Allowable Leakage Rate (L ): 0.500 wt 4 per day a

4 3.3 TEST DATA (Cont'd).

Measured Leakage Rate:

Mass Point 0.186 wt % per day Total Time 0.172 wt % per day Measured Leakage Rate at UCL:

Mass Point , 0.191 wt % per day Total Time 0.237 wt % per day Supplemental Test Flow Rate 0.506 wt 4 per day Supplemental Test Measured Leak Rate Mass Point 0.702 wt % per day Total Time 0.721 wt % per day Supplcmental Test and L,,

Agreement:

Mass Point 2.0%

Total Time 8.6%

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4.0 ACCEPTANCE CRITERIA 4.1 TECHNICAL SPECIFICATION ACCEPTANCE CRITERIA Acceptance criteria established prior to the test and as specified by 10CFR50, Appendix J, ANSI N45.4-1972 and the Brunswick Steam Electric Plant Unit No. 2 Technical Specifications are as follows:

1. The measured leakage rate (L,) at the calculated design accident pressure of 49.0 psig (P ) shall be less than 75% of the maximum allowable leakage rate (L ), specified as 0.5% by weight of the building atmosphere per da,y. The acceptance criteria is determined as follows:

L, = 0.St/ day 0.75 L, =

0.375t/ day

2. The test instrumentation shall be verified by means of a supplemental test. Agreement between the containment leakage measured during the Type A test and the containment leakage measured during the supplemental test shall be within 25% of L,.

4.2 REDUCED DURATION TESTING ACCEPTANCE CRITERIA In addition to the acceptance criteria mentioned above, the following reduced duration testing acceptance criteria contained in Bechtel Topical

} Report BN-TOP-1, Revision 1 dated November 1, 1972, was used:

1. The trend report based on total time calculations shall indicate that the magnitude of the calculated leak rate is tending to stabilize at a value less than the maximum allowable leak rate (0.75 L,).

2.

The end of test upper 954 confidence limit for the calculated leak rate based on total time calculations shall be less than the maximum allowable leak rate.

3.

The mean of the measured leak rates based on total time calculations over the last five hours of test or last 20 data points, whichever provides the most data, shall be less than the maximum allowable leak rate.

4.

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At least 20 data points shall be provided for statistical analysis.

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6 5.0 TEST INSTRUMENTATION 5.1

SUMMARY

OF INSTRUMENTS Test instruments employed are described, by system, in the following subsections.

5.1.1 Temperature Indicating System Components: ,

1. Resistance Temperature Detectors:

Quantity 23 Manufacturer Rosemount Type 78-S 100 ohm platinum Range, F 0 to 400 Accuracy, UF +0.1 Sensitivity, F }[0.1

2. Temperature Indicator Quantity 3 Manufacturer Chromalox Type 2510 process indicator Accuracy, F +0.1 Repeatability, F h(0.1 5.1.2 Dewpoint Indicating System
1. Dewcell Elements Quantity 10 Manufacturer Foxboro Type 2701 R3 Nickel RTD Range, F 0 - 150 dewpoint Accuracy, F +2 Sensitivity, F {[0.5 l
2. Dewpoint Transmitters Quantity 10 Manufacturer Foxboro Type Model E94, 4-20 ma output Accuracy, F +0.4 Repeatability, OF {[0.1 i

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5.1,3 Pressure Monitoring System Precision Pressure Gauges Quantity 2 Manufacturer Texas Instruments Type Model 145 (with direct readout)

Range, psia 0 - 75 Accuracy, psia 0.015% of full scale Sensor sens,itivity, psia 0.0013% of full scale Repeatability, psia 0.001% of full scale 5.1.4 Supplemental Test Flow Monitoring System Flowmeter Quantity 1 Manufacturer Brooks Type Model 1110 Range, scfm 0-5 Accuracy +2% of full scale 5.2 SCHEMATIC ARRANGEMENT The arrangement of the four measuring systems summarized in Section 5.1 is depicted in Appendix A.

Drybulb temperature sensors were placed throughout the reactor containment vessel volume to permit monitoring of internal temperature variations at 23 locations. Dewcells were placed at ten locations to permit monitoring of the reactor containment partial pressure of water vapor. A temperature survey was performed af ter the sensors were installed which verified there were no large areas of temperature variation.

5.3 CALIBRATION CHECKS Temperature, dewpoint, and pressure measuring systems were checked for calibration before the test as recommended by ANSI N45.4-1972, Section 6.2 and 6.3. The results of the calibration checks are on file at Brunswick Steam Electric Plant. The supplemental test at 49.0 psig confirmed the instrumentation acceptability.

5.4 INSTRUMENTATION PERFORMANCE During the testing phare, one RTD exhibited abnormal behavior and was not used for the test. The remaining 23 RTDa, ten dewcells and two precision pressure gauges, and flow meter performed satisfactorily throughout the performance of the integrated leak rate test and provided more than i adequate coverage of the containment.

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5.5 VOLUME WEIGHTING FAC'1VRS Weighting factors were assigned to each drybulb temperature sensor and dewpoint temperature sensor based on the calculated volume of the reactor containment building each sensing device monitored. Drybulb and dewpoint temperature sensors elevation and weighting factors for the test were as follows:

Elevation / "

Temp 5rature Weighting Azimuth Element Factor 93/0 TE 1 .0264 93/180 TE 2 .0264 78/270 TE 3 .0187 78/90 TE 4 .0187 66/0 TE 5 .0115 66/180 TE 6 .0115 54/270 TE 7 .0136 54/90 TE 8 .0136 46/300 TE 9 .0194 46/0 TE 10 .0194 46/180 TE 11 .0194 33/0 TE 12 .0750 33/120 TE 13 .0750 16/0 TE 15 .0577 16/270 TE 16 .0577 16/180 TE 17 .0577 16/90 TE 18 .0577 Torus /0 TE 19 .0701 Torus /60 TE 20 .0701 Torus /120 TE 21 .0701 Torus /180 TE 22 .0701 Torus /240 TE 23 .0701 Torus /300 TE 24 .0701 93/270 DPE 1 .0527 78/90 DPE 2 .0489 54/0 DPE 3 .0386 46/180 DPE 4 .0583 33/270 DPE 5 .1502 l 16/90 DPE 6 .2309 I Torus /0 DPE 7 .1051 Torus /90 DPE 8 .1051 Torus /180 DPE 9 .1051 Torus /270 DPE 10 .1051 i

9 5.6 SYSTEMATIC ERROR ANALYSIS Systematic error, in this test, is induced by the operation of the temperature indicating system, dewpoint indicating system, and the pressure indicating system.

Justification of instrumentation selection was accomplished, using manufacturer's sensitivity and repeatability tolerances stated in Section 5.1, by computing the instrumentation selection guide (ISG) formula.

Containment leakaIge determined by the Absolute Method requires accurate measurement of small changes in containment pressure with suitable corrections for temperature and water vapor. Since the Absolute Method utilizes the change in a reading (i.e., pressure and temperature) to calculate leak rate, the repeatability, sensitivity, and readability of the instrument system is of more concern than the accuracy. To perform the ISG calculation, the sensitivity error of the sensor and the repeatability error of the measurement system must be used.

Sensitivity is defined as "the capability of a sensor to respond to change." Sensitivity is usually a function of the system measuring the sensor output. When the sensor energy state is raised or lowered an amount equal to the smallest value which the entire system will process, a change of indication will occur. To determine sensitivity for ILRT sensors, it is necessary to analyze the smallest value of the analog sensor output which will cause a one digit change in the digital display.

Repeatability is defined as "the capability of the measurement system to reproduce a given reading from a constant source."

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, Utilizing the methods, techniques, and assumptions in Appendix G to ANS 56.8-1981, the ISG formula was computed for the Absolute Method as

( follows:

1. Conditions:

L, = 0.St/ day P = 63.7 psia T = 543 R drybulb T = 75 F dewpoint dp t = 8.0 hours0 days <br />0 hours <br />0 weeks <br />0 months <br />

- -------- '- ~

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2. Total Absolute Pressure: e P

No. of sensors = 2 Range = 0 - 75 psia Sensor sensitivity error (E ) =

+0 . 0013% of full scale Measurement system error (c )

p

=

10.001% of full scale 1/2 e =+  !

(E ) + (c ) / [no. of sensors]

P _P P_

1/2 e =

P (0.000975)2 + (0.00075)2 / [2] 1/2 e = +0.00088 psia

3. Water vapor Pressures e py No. of sensors = 10 Sensor sensitivity error (E ) = +0.5 F ,

Measurement system error (c excluding sensor E

"), = +.1 F r

At a dowpoint temperature of 75 F, the equivalent water vapor pressure change (as determined from steam tables) is 0.0141 psia /*F E

pv = +0.5 F (0.0141 psia / F)

Ep , = +0.00705 psia l

e = +0.1 F (0.0141 psia / F) cp,= +0.00141 psia I

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- , , - , - - . - - - - - + , , - - - - ,--

11 e =+ (E y) + (c y) / (no. of sensors] !

1/2 1/2 e =+ (0.00705) + (0.00141) 2 / (10]

pv -

e = +0.00227 psia

4. Temperaturer e T

No. of sensors = 23 Sensor sensitivity error (E ) = +0.1 F = +0.1 R T

Measurement system error (c ),

excluding sensor = +0.1 F = +0.1 R 1/2 1/2 e =+ (ET )2 + / (no. of sensors]

T ("T)2 1/2 1/2 eT =+ (0.1)2 + (0.1) 2 / (23]

eT = +0.0295 R

5. Instrument Selection Guide (IOG) :

e e e -

2400 1/2 l ISG =+ -

t _p) 2 (2 + 2(2p ) + 2( )2 _

2400 1/2 ISG = + 2(0.00088)2 . 0.00227)2 + 2(0.0295)2 8.0 63.7 63.7 543

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ISG = + 300 [3.817 x 10- 0 + 2.540 x 10 ' + 5.903 x 10 *]

l ISG = + 0.028%/ day l

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12 (0.125%/ day) and it is therefore The ISG value concluded does that the not exceed 0.25 instrumentation se L,lected was acceptable for use in determining the reactor containment integrated leakage rate.

5.7 SUPPLEMENTAL VERIFICATION In addition to the calibration checks described in Section 5.3, test instrumentation operation was verified by a supplemental test subsequent to the completion of the 8.0 hour0 days <br />0 hours <br />0 weeks <br />0 months <br /> leakage rate test. This test consisted of imposing a kno,wn calibrated leakage rate on the reactor containment building. Af ter the flow rate was established, it was not altered for the duration of the test.

During the supplemental test, the measured leakage rate was:

Lg = L' y + L 9

Where L =

Measured composite leakage rate consisting of the reactor c

containment building leakage rate plus the imposed leakage rate L, = Imposed leakage rate L'= Leakage rate of the reactor containment building during the supplemental test phase Rearranging the above equation, L' = L ~

b y c o The reactor containment building leakage during the supplemental test can be calculated by subtracting the known superimposed leakage rate from the measured composite leakage rate.

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test (L ') was then compared to the measured reactor containment building leakage # rate during the preceding 8.0 hour0 days <br />0 hours <br />0 weeks <br />0 months <br /> test (L to determine i

instrumentation acceptability. Instrumentation is"Eo)nsidered acceptable if the difference between the two building leakage rates is within 25% of the maximum allowable leakage rate (L,) .

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l 13 6.0 TEST PROCEDURE 6.1 PREREQUISITES Prior to commencement of reactor containment building pressurization, the following prerequisites were satisfied:

1. Proper operation of all test instrumentation was verified.
2. All reactor, containment building isolation valves were closed using the normal mode of operation. All associated system valves were placed in post-accident positions.
3. Equipment within the reactor containment building, subject to damage, was protected from external differential pressures.
4. Portions of fluid systems, which under post-accident conditions become extensions of the containment boundary, were drained and vented.
5. Type B and C testing was completed with a leakage value less than 0.6 L,.
6. Containment pressurization system was operational.
7. Four drywell cooling fans were in operation.
8. Potential pressure sources were removed or isolated from the containment.
9. An inspection of the accessible interior and exterior surfaces of the containment was completed.

6.2 GENERAL DISCUSSION Following the satisfaction of the prerequisites stated in Section 6.1, the reactor containment building pressurization was initiated at a rate of approximately S.0 psi per hour. Af ter the containment was stabilized, leak rate testing was initiated at the 49.0 psig pressure level. For the duration of the 8.0 hour0 days <br />0 hours <br />0 weeks <br />0 months <br /> leak test and the 4.0 hour0 days <br />0 hours <br />0 weeks <br />0 months <br /> supplemental test, averap internal containment temperature remained within a band of

+0 32 F.

During the test the.following occurred at 15 minute intervals (see Appendix B - Reduced Leakage Data):

1. Readings indicated.by the precision pressure gauges were recorded and entered into the computer.

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2. Readings indicated by the 23' RTDs were recorded and entered into the computer. Tne computer program calculated the weighted average containment building drybulb temperature by use of a weighting factor that was assigned to each RTD. This value was subsequently converted to degrees Rankine for use in the ideal gas law equation to calculate containment building weight of air.
3. Readings indicated by the ten dewpoint temperature sensors were recorded and entered into the computer. The computer program converted the readings to dewpoint temperatures and then calculated the average containment dewpoint temperature by use of a weighting factor assigned to each sensor. This weighted average dewpoint temperature was then converted to a partial pressure of water vapor.

The use of water vapor pressure (P , temperature (T), and the total pressure (P ) is described in more"de) tail in Section 7.1.

Data was entered into an IBM Personal Computer located in the plant computer room. The ILRT computer program utilized for the test had been previously checked with sample data of known results and certified prior to the test. The computer program then calculated the following at 15 minute intervals:

1. Total weight of containment air.
2. Mass point least squares fit leakage rate.
3. Mass point 95% upper confidence level leakage rate.
4. Observed total time leakage rate.
5. Total time mean leakage rate.
6. Total time least squares fit leakage rate.
7. Total time 95% upper confidence level leakage rate.

A plot of weighted average containment temperature, containment total pressure, containment average dewpoint temperature, and weight of air was performed for each 15 minute data set (see Appendix C).

Immediately following the 8.0 hour0 days <br />0 hours <br />0 weeks <br />0 months <br /> leak test, a superimposed leakage rate was established for a one hour stabilization period and 4.0 hour0 days <br />0 hours <br />0 weeks <br />0 months <br /> test period. During this time, temperature, pressure, and vapor pressure were monitored as described above.

15 6.3 TEST PROCEDURE 6.3.1 Pressurization and Stabilization Phase Pressurization of the reactor containment building was started on May 2, 1986, at 1010. The pressurization rate was approximately 5 psi per hour. When containment internal pressure reached 50 psig at 2020 on May 2, pressurization was secured. By 0100 on May 3, temperature stabilization criteria had been met.

6.3.2 Integrated Leak Rate Testing Phase At 0200 on May 3, 1986, 15 minute frequency test data collection was initiated. Subsequent to 0200, the following sequence of events took place:

1. At approximately 0600, leak detection teams were sent to investigate for potential leakage paths due to a relatively constant leakage rate of 0.580%/ day. By 1200 several leaks were discovered on valve packings, however, no single large leak was discovered.
2. Leakage investigation continued throughout the day with no major leaks discovered. By 2300 two packing leaks were repaired on Ell-F024A and Ell-F024B. These repairs resulted in no apparent change to the overall leakage rate.
3. By 0230 on May 4, packing leaks were repaired on CAC-V-5 and CAC-V-17. Leakage rate results, subsequent to repair of the packing leaks (0430 to 1000 hours0.0116 days <br />0.278 hours <br />0.00165 weeks <br />3.805e-4 months <br />) , were 0.590%/ day. This was essentially the same leakage value detected earlier and therefore the repair of packing leaks on CAC-V-5 and CAC-V-17 had no effect on the overall containment leakage rate.
4. At 1000, operations opened CAC-V-5 and CAC-V-6 to allow an 18 inch diameter communications path between the drywell and suppression chamber in addition to the 1 inch diameter path already present.

Leak rate data taken from this time thru the remainder of the day indicated a smaller leakage rate of approximately 0.440%/ day but still not below the acceptance criteria. The reduced leakage rate was attributed to the added free volume of the torus reducing the existing leaks to a smaller percentage of the free volume.

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5. At approximately 2300 a leak was discovered at the suppression pool to reactor building vacuum breaker valve CAC-X20A but due to the configuration of the valve no maintenance could be performed while the containment was at pressure. At 0030 on May 5 a flowmeter, utilized for local leak rate testing, was connected between CAC-X20A and CAC-V-16 to pressurize the volume to 48 psig. This pressure caused the CAC-X20A to become seated and no further evidence of leakage was observed past the valve seat. At this time the flowmeter was disconnected and the test connection was closed.

Following the sequence of events mentioned above, an acceptable leakage rate was obtained from 0100 on May 5, 1986, until 0900 on May 5. Utilizing the Mass Point method of analysis, the measured leakage rate was 0.186%/ day with an associated 95% confidence interval of 0.005% by weight per day. Utilizing the Total Time method, the measured leakage rate was 0.172%/ day and 0.237% by weight per day at the upper bound of the 95% confidence interval.

6.3.3 Supplemental Leakage Rate Test Phase Following completion of the 8.0 hour0 days <br />0 hours <br />0 weeks <br />0 months <br /> integrated leak rate test, a leakage rate of 4.34 scfm was imposed on the containment building through a calibrated flow meter at 0900 on May 5. After a one hour stabilization period, leakage rate data was again collected at 15 minute intervals for a period of four hours. With an imposed leak rate of 0.506% per day a measured composite leakage rate of 0.702% per day was obtained using the Mass Point method. This results in a containment building leakage rate agreement of 2.0% of L with the results of the eight hour test. Using the Total Time method $f analysis, the measured composite leakage rate i was 0.721% per day, resulting in an agreement of 8.6% of L with the I

results of the eight hour test. These values ar,e both welf within the acceptance limit of 25% of L,.

6.3.4 Depressurization Phase After all required data was obtained and evaluated, containment building depressurization to O psig was started. A post test inspection of the drywell and torus revealed no unusual findings.

6.3.5 Post ILRT Testing l Following the integrated leakage rate test CAC-X20A and CAC-V-16 were tested using local leakage rate methods. This test was performed so that pre and post maintenance leakage rate values could be established and

added to the results of the ILRT. Several tests were performed, however, each test resulted in a O measured leakage rate. This possibly indicates that some dirt or debris was trapped in the sealing surface of the CAC-V16 valve during the integrated leakage rate test.

17 A small rust bloom was discovered beneath the rubber sealing surface of the CAC-X20A, With only slight leakage of the CAC-V15 d.tring the integrated leakage rate test, no back pressure build-up .und the CAC-X20A would not hold. 'However, when the volume between the CA.':-V16 and CAC-i X20A was pressurized to 48 psig, the valve was leak tight:. The valve has since been reconditioned and with the magnetic seal, she:21d remain leak tight at any pressure.

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18 7.0 METHODS OF ANALYSIS 7.1 GENERAL DISCUSSION The Absolute Method of leakage rate determination was employed during testing at the 49.0 psig pressure level. The Gilbert / Commonwealth, Inc.

ILRT computer code calculates the percent per day leakage rate using both the mass point and total time methous.

7.1.1 Mass Point Analysis The Mass Point method of computing leakage rates uses the following ideal gas law equation to calculate the weight of air inside containment for each 15 minute interval:

W=

144 PV , g RT R Where:

W= Mass of air inside containment, lbm 5 lbm - R - in.

K= 144 V/R = 7.96199 x 10 lbf P= Partial pressure of air, psia T= Average internal containment temperature, R V= 294,981 ft

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R= 53.35 lbm OR The partial pressure of air, P, is calculated as follows:

P= P -P T

Where:

P = Total containment pressure T

P = Partial pressure of water vapor determined by averaging the ten dewpoint temperatures and converting to partial pressure of water vapor, psia

19 The average internal containment temperature, T, is calculated as follows:

1 T =

Z iT i The weight of air is plotted versus time for the 8.0 hour0 days <br />0 hours <br />0 weeks <br />0 months <br /> test and for the 4.0 hout supplemental test. The Gilbert / Commonwealth, Inc. ILRT computer code fits the locus of these points to a straight line using a linear least squares fit. The equation of the linear least squares fit line is of the form W = A + B, where A is the slope in ibn per hour and B is the initial weight at time zero. The least squares parameters are calculated as follows:

A =

N ( i i) - ( i) ( i) g XX B = ( i) ( II ~ ( iI I I II XX Where S,, = N (Itg)

(It )

The weight percent leakage per day can then be determined from the following equation:

n . -2400 A am B where the negative sign is used since A is a negative slope to express the leakage rate as a positive quantity.

7.1.2 Total Time Analysis The total time method utilizes the following equation to determine the leakage rate of the reactor containment building:

T P --

g , 2400 y. 1 2 t T P

__ 2 __

l

, , _ - - - _ _ _ , - , _ - - _ , - , . - - -----_n- - _ - ,,,

20 Where L = Measured leak rate in weight percent per day t = Time interval, in hours, between measurements T g,T 2 = Average internal containment temperature, R, at the beginning and the end of the test interval respectively.

P ,P2 " AY* rage c ntainment pressure (corrected for water vapor pressure) at the beginning and end of the test interval respectively.

The mean total time leakage rate is derived from the above individual total time calculations. The equation for the mean leakage rate is in the forms I. L 1

E =

n Where:

Lg =

Individual total time leakage rates n =

Number of total time leakage rates The individual leakage rates are then plotted aginst time for the duration of the 8.0 hour0 days <br />0 hours <br />0 weeks <br />0 months <br /> test. The Gilbert / commonwealth, Inc. ILRT computer code fits the locus of these points to a straight line using a linear least squares fit. The equation is of the form L = L + L t where L, is the slope in percent per hour andg L is the initial lekkage9 rate at time zero. The least squares parameters are calculated as follows:

[ Itg 2 IL g , It IL l

L = 1 1 t

o S XX It ZL g _ It g ILg L =

1 S XX Where:

S,x = N It g - (It i) i e

21 7.2 STATISTICAL EVALUATION 7.2.1 General Af ter performing the least squares fit, the ILRT computer code calculates the following statistical parameters:

1. Limits of the 95% confidence interval for the mass point leakage rate (Cg ).
2. Limits of t' he 95% confidence interval for the total time leakage rate (C3).

These statistical parameters are then used to determine that the measured leakage rate plus the 95 UCL meet the acceptance criteria.

7.2.2 Mass Point Confidence The upper 95% confidence limit for the mass point leakage rate is calculated as follows:

Cg = 2400 t 95 I8A/B)

Where:

C " Upper 95% confidence limit M

t = udent's t distribution with N-2 degrees of freedom 95 S = Standard deviation of the slope of the least squares fit line

, B = Intercept of the least squares fit line I

The standard deviation of the slope of the least squares fit line (Sg) is calculated as follows:

S (N) 1/2 (N(Iti)2 -

(It i)2)

Where:

l S = Common standard deviation of the weighted from the least squares fit line N = Number of data points tg = Time interval of the ith data point I

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1

l l

22 The commen standard deviation (S) is defined by:

I(W.* - W)

S =

[ 1 1/2 N-2 Where:

W = Observed mass of air 1

W = Leas"t squares calculated mass of air The ILRT computer code calculates an upper 95% confidence leakage rate as follows:

UCL = L + 2400 t am 95 I8A/B)

This UCL value is then used to detenmine that the measured leakage rate at the upper 95% confidence limit meets the acceptance criteria.

7.2.3 Total Time Confidence The 95% confidence limit for the total time leakage rate is calculated as follows:

~

- 2

+  !

C = t Se 1+

L 95 n I (t - t)2

_ i _

Where t = Total time interval l

It g t =

n t g= Time interval for each data point n = Number of individual total time leakage rates

(

l I

l l

23 8.0 DISCUSSION OF RESULTS 4

8.1 RESULTS AT P ,

8.1.1 Mass Point Method of Analysis Data obtained during the leak rate test at P, indicated the following changes (highest to lowest) during the 8.0 hour0 days <br />0 hours <br />0 weeks <br />0 months <br /> test.

Variable Maximum Change P 0.074 psia T

P,y 0.005 psia T 0.266 F The method used in calculating the Mass Point leakage rate is described in Section 7.1.1. The results of this calculation is a mass point ledtage rate of 0.186t/ day (see Appendix D).

The 95% confidence limit associated with this leakage rate is 0.005% per day. Thus, the leakage rate at the upper bound of the 95% confidence level becomes:

UCL = .186 + .005 UCL = 0.1914/ day i Additional leakage rates must be applied to the measured leakage rate at

! the upper 95% confidence level to account for penetration paths not

( exposed to the test pressure and for changes in the net free volume of the containment due to water level changes. Penetration paths not exposed to the test pressure and the corresponding leakage rates based on analysis of minimum pathway local leakage rate testing are as follows:

Minimum Pathway Containment Local System Isolation Valves Leakage Rate (SCFH)

Drywell Drains 1-G16-F003/F004 0 Drywell Drains 1-G16-F019/F020 0 Feedwater (RCIC 1-B21-F032B, O Injection Line B) 1-E51-V88 1-E51-F013, 1-B21-F010B, 1-G31-F042 l

24 Minimwn Pathway Containment Local System Isolation Valves Leakage Rate (SCFH)

Feedwater (HPCI 1-B21-F032A, O Injection Line A) 1-E41-F006, 1-B21-F010A Reactor Building 1-RCC-V28/V52 1.125 Cooling Water ,

RXS-SV1222B/C 0 CRD Purge to Reactor 1-B32-V24/v22, O Recire Pumps V30 1-B32-V32/V22, 0 V30 Recire Sample 1-B32-F019/F020 0.303 RHR Suction 1-E11-F008/F009 0 Reactor Water 1-G31-F001/F004 0 Cleanup The total applicable local leakage rate is 1.428 scfh which is equivalent to a leakage rate of 0.003%/ day.

Water level changes in the containment during the 8.0 hour0 days <br />0 hours <br />0 weeks <br />0 months <br /> integrated leakage rate test are summarized below:

Reactor Vessel Water Level:

0100 5-5-86 196.8 inches 0900 5-5-86 196.2 inches Torus Water Level:

0100 5-5-86 -2.5 feet ,

1 0900 5-5-86 -2.6 feet An increasing reactor vessel water level or torus water level would cause containment net free volume to decrease, resulting in a lower calculated leakage rate than is actually the case. Since both reactor vessel and torus water levels indicated a decrease during the integrated leak rate data period, no correction to the leakage rate is necessary.

25 The total containment leakage rate at the upper 95% confidence level (UCL) is calculated as follows UCL = L,, + 95% confidence limit + Type C leakage +

changes in net free volume UCL = 0.186t/ day + 0.005t/ day + 0.003t/ day + 0.0004/ day UCL = 0.194%/ day This value is well below the acceptance criteria leakage rate of 0.375t/ day (.75L,).

8.1.2 Total Time Method of Analysis The method used in calculating the total time leakage rates is defined in Section 7.1.2. The results of these calculations are as follows:

1. The measured total time leakage rate for the 8.0 hour0 days <br />0 hours <br />0 weeks <br />0 months <br /> test was 0.172% by weight per day.
2. The 95% confidence limit associated with this leakage rate is 0.065% per day. Thus, the leakage rate at the upper bound of the 95% confidence level becomes:

UCL = 0.172 + 0.065 UCL = 0.237t/ day

3. The mean of the measured leakage rates based on the last five hours of the test was 0.199 percent by weight per day.

The corrected containment leakage rate at the upper 95% confidence level (UCL) for Type C penalties and changes in net free volume is calculated l as follows:

UCL = L,,+ 954 confidence limit + Type C leakage + changes in net free volume.

, UCL = 0.1724/ day + 0.065t/ day + 0.003%/ day + 0.0004/ day l

UCL = 0.2404/ day l

, , , - , , , - - . . - -,-me ---,- v- '~

26 The total time measured leakage rate, the measured leakage rate at the upper bound of the 95% confidence level and the mean of the measured leakage rates based on the last five hours of testing are below the acceptance criteria of 0.375%/ day.

Therefore, the reactor containment building leakage rate, based on both the mass point method and total time method of analysis, at the calculated design basis accident pressure (P ) of 49.0 psig is acceptable.

8.2 SUPPLEMENTAL TEST RESULTS After conclusion of the 8.0 hour0 days <br />0 hours <br />0 weeks <br />0 months <br /> test at 49.0 psig (P ), the flowmeter was placed in service and a flow rate of 4.34 scfm was established. This flow rate is equivalent to a leakage rate of 0.506% per day. After the flow rate was established it was not altered for the duration of the supplemental test. The measured leakage rate (L g) during the supplemental test was calculated to be 0.702% per day using the Mass Point method of analysis and 0.7211 per day using the Total Time method.

The building leakage rate during the supplemental test is then determined as follows:

Mass Point Total Time L' =L c

-L L' =L -L v o y c o L'v = 0.702 - 0.506 L v

= 0.721 - 0.506 L'

v

= 0.196t/ day L' V

= 0.2151/ day Comparing this leakage rate with the building leakage rato measured during the 8.0 hour0 days <br />0 hours <br />0 weeks <br />0 months <br /> test yields the following:

"" # ~

  • Mass Point = =

= 0.020 L, 0.5

    • # =

Total Time = - "

  • O5 The building leakage rates agree within 2% of L using the Mass Point method and 8.6% using Total Time which are well*below the acceptance criteria of 25%.

27 Using the formulation of ANS 56.8-1981, (Lo +L am

- 0.25La ) < Lc-< (Lo +L am

+ 0.25La)

(0.506 + 0.186 - 0.125) 1 L 1 (0.506 + 0.186 + 0.125) 0.567 i L 1 0.817 Since L was measured to be 0.702%/ day, this value falls within the acceptable range of 0.567% to 0.817% per day. Therefore, the acceptability of the test instrumentation is considered to have been verified.

8.3 AS FOUND ANALYSIS To determine the as-found containment leakage rate, an analysis was performed to evaluate any leakage savings from repairs or maintenance to containment isolation barriers. Leakage sivings are realized when s containment isolation barrier repairs or maintenance result in a lower minimum pathway leakage than that which existed prior to the repair or l

maintenance.

l The results of the analysis are presented in Appendix F. The total leakage savings due to performing Type B and C tests prior to the Type A test indicates that the acceptance criteria (L ) would have been exceeded due to two penetrations that could not be pres,surized.

I

-Wr r--r-e-- ---------------mpey w wp-w-y7- r -- g

---r - - -

e-# wy r-wm -tu - a m- 'w--- -- + ~ - v-------%g wr m

28

9.0 REFERENCES

1. PT-20.5, Integrated Primary Containment Leak Rate Test.
2. Brunswick Steam Electric Plant Unit No. 2 Final Safety Analysis Report.
3. Code of Federal Regulations, Title 10, Part 50, Appendix J.
4. ANSI N45.4 ,1972, Leakage Rate Testing of Containment Structures for Nuclear Reactors, American Nuclear Society (March 16, 1972).
5. ANS-56.8-1981, Containment System Leakage Testing Requirements, American Nuclear Society.
6. ILRT Computer Code, Gilbert / Commonwealth, Inc.
7. Steam Tables, American Society of Mechanical Engineers, 1967.
8. BN-TOP-1, Testing Criteria for Integrated Leakage Rate Testing of Primary Containment Structures for Nuclear Power Plants, Revision 1, November 1, 1972.

l

0 9

4 APPENDIX A MTIC ARRANGEMENT OF TEST INSTRUMENTATION

APPENDZX A SCHEMATIC ARANGEMENT OF TEST INSTRUMENTATION f 3 COMPRESSED ELEV.93' AIR D4 - -

0* 180* 270*

ELEV. 78' 770* 90* 90*

ELEV. 66' VE E11 0* 180*

F021A ELEV. 54' TE TE ort PRECISION ME11 O 1 270* 90*

8  :

0*

PRESSURE F016A ELEV.46' GAUGES 300* O' 180* 180*

X y ELEV 3' HEADER E TE E ort ROTAMETER 0 120* 240* 270*

a /

TORUS

, ELEV. 0* . 4" l J O' 90* 180* 270* O' 60* 120* 180* 240' 300*

TE = TEMPERATURE ELEMENT (RTD)

DPE = DEWPOINT ELEMENT (DEWCELL)

.m TE-14 Not Used For Test

_ __ ~

s 4

APPENDIX B REDUCED TEST DATA

\

's t

%w .

APPENDIX B REDUCED TEST DATA 05-06-1986 TIME PAVG PWV TAVG WEIGHT +

100 63.71601 .4381202 83.7863 92702.914 115 63.713 .4377135 83.7799 92700.203 130 63.71051 .4392462 83.7712 92695.789 145 63.709 .4387848 83.77706 92693.266 200 63.7085 .4374401 83.77419 92694.992 215 63.7055 .4391736 83.76096 92690.320 230 63.704 .4386601 83.76235 92688.641 245 63.702 .4389894 83.74815 92687.641 300 63.6995 .4384337 83.75181 92684.164 315 63.697 '

.4386848 83.73526 92682.953 330 63.6945 .4391051 83.73064 92679.469 345 63.6925 .4391185 83.72497 92677.484 400 63.6905 .4377031 83.71635 92678.094 415 63.6885 .4376273 83.70589 92677.063 430 63.6865 .4375625 83.69133 92676.711 445 63.6845 .4360973 83.68343 92677.281 500 63.68251 .4372329 83.68191 92672.938 515 63.679 .4367744 83.67675 92669.359 530 63.677 .4375744 83.66582 92667.125 545 63.6735 .4363113 83.65767 92665.242 600 63.6715 .436142 83.64919 92664.008 615 63.669 .4367744 83.63688 92661.5 630 63.6665 .4355445 83.62956 92660.898 645 63.6625 .4353649 83.61548 92657.703 700 63.66 .4357153 83.59699 92656.680 s 715 63.6575 .4353864 83.59043 92654.625 l 730 63.6535 .4360532 83.57574 92650.273 745 63.652 .4348914 83.56543 92651.547 800 63.6495 .4357271 83.55372 92648.648 l 815 63.6465 .4349032 83.53666 92648.367 830 63.6445 .4348747 83.5293 92646.734 845 63.6425 .4350541 83.51915 92645.266 900 63.642 .4336716 83.52015 92646.398 l

_ - - - , , . - , _ , - - - - , - . - - - - - - - - ~ ~ , - - - - - - , ~ ~ - - - ' ~

~ ' ' ' ' ~ ' ' ' ' ' ' " ' ~ ~ " ' ' ' ~ ~ " ~ ~ ~ ~ ' - ' ' ' ' ~ ' ~ ~ ~ ~ ~

APPENDIX B REDUCED TEST DATA 05-05-1986 (SUPERIMPOSED TEST)

TIME PAVG PWV TAVG WEIGHT 1000 63.62 .4332948 83.47666 92622.109 1015 63.6165 .4330806 83.47758 92617.133 1930 63.611 .432896 83.47556 92609.703 1945 63.6065 .4337757 83.47194 92602.422 1100 63.602 .4345983 83.471/6 92594.648 8115 63.59851 .4339162 83.47451 92590.062 1130 63.594 .3339065 83.47828 92082.836 1145 63.59 .4353473 83.48263 92574.117 1200 63.5865 *

.4344056 83.48038 v25/0.75 1215 63.5825 4158446 83.48991 92561.141 1230 63.5775 .4354426 83.49454 92553.617 1245 63.5725 .4357561 83.4905 92546.531 1300 63.5675 .4354296 83.48824 92540.055 1315 63.5635 .4354371 83.49213 92533.523 1330 63.5615 .4356173 83.50167 92528.703 1345 63.559 . .4359057 83.50353 92524.297 1400 63.5535 .4365776 83.5095 92514.234 l

--___,y w -,

,, --. - .,.,- y _

E APPENDIX C LEAKAGE RATE TEST GRAPHS I

h l

l

)

I i

t l

l 1

APPENDIX C i

WEIGIIT OF CONTAINMENT AIR AND AVERAGE CONTAINMENT TEMPERATURE VERSUS TIME

! LEAST SQUARES FIT EQUATION 2,7008 h = ^

m W = 92,700 - 7.18t g _ _

  • eS wm d .

e,,**a m .

OM . ^' -

yg '= w eM S ~

j oz 92,600 "E

Ez y .75I.

I -

i 8 l

l 8 !!OUR INTEGRATED LEAK RATE TEST

$ 83 8 WF %oeeeeeoe,,g 5-

<w

  • eoee e ee e8 94g**

ga: 83.7 g&

g e..

83.6 i

5g

E 0100 0900 5-5-86 5-5-86 TIME (Ilours)

APPENDIX C WEIGHT OF CONTAINMENT AIR AND AVERAGE CONTAINMENT TEMPERATURE VERSUS TIME t

ERIFICATION TEST W ER LIMIT 92,600 n

b e

oN< LEAST SQUARES FIT EQUATION

< E-e W = 92,623 - 27.lt 5$ >

h,U 92,500 -

n

$ VERIFICATION TEST UPPER LIMIT 8

4 HOUR SUPERIMPOSED LEAK TEST E4 Z-o~

d >

ll "s

mm

o. 83.4 b

>b 1000 1400 5-5-86 5-5-86 TIME (Hours)

I i

l

0 APPENDIX D COMPUTER RESULTS l

t

(

APPENDIX D COMPUTER RESULTS

1. Mass Point Results A = Slope of least squares line (Lbs/hr) is -7.18 B = Intercept of least squares line (lbs) is 92700 L, =

Measured leak rate is 0.186%/ day UCL =

95% upper confidence leakage rate is 0.191%/ day

2. Total Time Results A = Slope of least squares line (%/ day /hr) is -0.0125 B =

Intercept of least squares line (%/ day) is 0.272 L = Measured leak rate is 0.172 UCL. =

95% upper confidence leakage rate is 0.237%/ day Mean leakage rate for last five hours is 0.199%/ day

3. Verification Test - Mass Point A = Slope of least squares line (lbs/hr) is -27.1 B = Intercept of least squares line (lbs) is 92622.8 L =

Composite leckage rate is 0.702%/ day

4. Verification Test - Total Time A =

Slope of least squares line (t/ day /hr) is 0.0221 B =

Intercept of least squares line (%/ day) is 0.633 L =

Composite leakage rate is 0.721%/ day

O APPENDIX E

SUMMARY

OF MEASURED DATA

(

l l

l l

l l

I

BRUNSWICK STEAM ELECTRIC PLANT UNIT 2 1983 ILRT

SUMMARY

OF ILRT MEASURED DATA

READING TAKEN AT TIME PERIOD : 100 DATE : 05-05-1986 RTD 1 86.42 R fD 16 84.69 RTD 2 86.8J999 Rl D 17 85.2 R fD 3 90.5 RfD 18 84.67 RTD 4 89.98001 R1D 19 79.68 RfD 5 91.13 R fD 20 78.39 RTD 6 91*83 R1 D 21 78.29 RfD 7 90.8 R fD 22 78.72 RTD 8 90.74 RTD 23 78.96 RTD 9 89.98001 RTD 24 79.47 RTD 10 90.97 R1 D 25 0 R fD 11 88.88 R fD 26 0 RTD 12 88.97 RTD 27 0 RTD 13 87.6 RTD 28 9 RTD 14 86.4 RTD 29 0 RTD 15 85.01999 RTD 30 0 THE AVE RTD WITH WEIGHTING FACTORS IS = 83.7863 IN F

= 543.4763 IN R PRESS 1 63.734 PRESS 2 63.698 THF. AVE PHESSURE IS = 63.71601 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 75.54961 DhWPT 6 75.59669 DEWPT 2 77.35153 DEWPT 7 75.72443 DEWPT 3 74.85038 DEWPT 8 77.35153 DEWPT 4 75.5698 DEWPT 9 76.01355 DEWPT 5 76.24887 DEWPT 10 71.8'J 168 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.59568

! THE PWV IS = .4381202 PSIA THE MASS WEIGHT IS = 92702.9140625 LBM

BHUNSWICK STEAM ELECTRIC PLANT UNIT E 1986 ILRT

SUMMARY

OF I' .RT MF ASURbD DATA

READING TAKEN AT TIME PERIOD : 115 DATE : 05-05-1986 RTD 1 86.38 RTD 16 84.69 RTD 2 86.88 RTD 17 86.2 R fD 3 90.46 RTD 18 84.67 RTD 4 89.94 RTD 19 79.64 RTD 5 91.08999 RTD 20 78.39 RTD 6 91.8/ Rl D 21 78.29 RTD 7 90.76 RfD 22 78.76 RTD 8 90.74 RTD 23 78.96 RTD 9 89.98001 RfD 24 /9. 43 RTD 10 '90.93 R1 D 25 0 R fD 11 88.83999 R fD 26 0 RTD 12 88.97 Rl D 27 0 RTD 13 87.6 R fD 28 9 RTD 14 86.36 RTD 29 0 RTD 15 85.01999 RfD 30 0 THE AVE RTD WITH WkIGHTING FACTONS IS = 83.7799 IN F

= 543.47 IN R PRESS 1 63.731 PRESS 2 63.695 THE AVE PRESSURE IS = 63.713 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 75.54961 DbWPT 6 75.37481 DEWPT 2 77.35153 DEWPT 7 75.94631 DEWPT 3 74.85038 DEWPT 8 77.36153 DEWPT 4 75.5698 DEWPT 9 /6.01355 DEWPT 5 76.24887 DEWPT 10 71.85168 THE AVE DEWPOINT WITH WEIGHTING FACTOHS IS = 75.56776 THE PWV IS = .4377135 PSIA THE MASS WEIGHT IS = 92700.203125 LBM e

- ~ ~ ~ - - - - - - , - , - - - - , , - . - - - - - , , - - _ - - - - , - - - , - - - . - - - , - - - - - - ,

__ ~ .

BHUNSW8CK S1EAM ELECTRIC PLANT UNIT 2 1986 ILHT

SUMMARY

Ok ILRT MEASURED DATA

READING TAKEN Al TIME PS.RIOD : 130 DATE : 05-05-1986 RTD 1 86.38 RTD 16 84.69 RTD 2 86.83999 RTD 17 85.3 RTD 3 '30.46 RTD 18 84.67 RTD 4 89.9 RTD 19 79.64 RTD 5 91'08999 . RTD 20 78.39 RTD 6 91.83 RTD 21 78.29 ,

RTD 7 90.76 RTD 22 78.72 RTD 8 90.7 RTD 23 78.96 RTD 9 89.98001 RTD 24 79.43 RTD 10 90.89 R1 D 2S 0 R fD 11 88.83999 R fD 26 0 RTD 12 88.97 RlD 27 0 RTD 13 87.6 RfD 28 9 RTD 14 86.44 RTD 29 0 RTD 15 84.98001 RTD JO e THE AVE RTD WITH WEIGHTING FACTONS IS = 83.7712 IN F

= 543.4612 IN R PRESS 1 63.728 PRESS 2 63.693 THE AVE PRESSURE IS = 63.71051 PSIA i

DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 75.32775 DEWPT 6 75.59669 DEWPT 2 77.35153 DEWPT 7 75.94631 DEWPT 3 75.07225 DhWPT 8 77.56668 DEWPT 4 75.5698 DEWPT 9 76.01355 DEWPT 5 76.47746 DEWPT 10 71.8b168

)

THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.67281 THE PWV IS = .4392462 PSIA THE MASS WEIGHT IS = 92695.7890625 LBM

n,,------w--- -,----,-,---,,----,-,---,.,n--,---w,.- -

- - , - - - - - - - , - - - - - , - - - - - - - - - - - - - . - - - . - ~ - - --- -,

BRUNSWICK STEAM ELECTRIC PLANT UNIT 2 1986 ILRT

SUMMARY

Oh I!.RT MFASURED DATA

READING TAKEN A1 TIME P-RIOD : 145 DATE : 05-05-1986 R fD 1 86.38 RTD 16 84.69 RTD 2 86.83999 Rl D 17 85.2 RTD 3 90.46 RTD 18 84.67 RTD 4' 89.94 RTD 19 79.64 RTD 5 91'.08999 RTD 20 78.43 RTD 6 91.83 RTD 21 78.29 RTD 7 90.76 RTD 22 78.72 RTD 8 90.7 R7 D 23 78.96 RTD 9 89.94 R fD 24 79.43 RTD 10 '90.93 RTD 25 0 RTD 11 88.83999 RTD 26 0 RTD 12 88.97 RTD 27 0 RTD 13 87.6 R fD 28 9 RTD 14 86.4 RTD 29 0 RTD 15 85.01999 R fD 30 0 THE AVE RTD WITH WEIGHTING FACTORS IS = 83.77706 IN F

= 543.46/1 IN R PRESS 1 63.727 PRESS 2 63.691 THE AVE PRESSURE IS = 63.709 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 75.54961 DEWPT G 75.59669 DEWPT 2 77.J5153 DEWPT 7 75.72443 DEWPT 3 75.07225 DEWPT 8 77.35153 DEWPT 4 75.79166 DEWPT 9 76.01355 DEWPT 5 76.24887 DEWPT is 72.08027 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.6412 THE PWV IS = .4387848 PSIA THE MASS WEIGHT IS a 9269J.265625 LSM

BHUNSWICK S1EAM ELECTRAC PLANT UNIT 2 1986 ILRT

SUMMARY

OF II.RT MFASURED DATA

READING TAKEN AT TIME PERIOD : 215 DATE : 05-05-1986 RTD 1 86.33999 RTD 16 84.65 RTD 2 86.8 RTD 17 85.16001 RTD 3 90.42 R fD 18 84.63 RTD 4 89.9 R1 D 19 79.64 RfD 5 91.05 RTD RO 78.J3 RTD 6 91.83 RTD 21 78.29 RfD 7 90.76 R fD 22 /8.72 RTD 8 90.7 R1 D 23 78.96 RTD 9 89.94 R fD 24 79.43 RTD 10 '90.93 R7 D 26 0 RTD 11 88.83999 RTD 26 0 RTD 12 88.97 Rl D 27 0 RTD 13 87.6 R fD 28 9 RTD 14 86.4 RTD 29 0 RTD 15 84.98001 RTD JO O THE AVE RTD WITH WEIGHTING FACTOHS IS = 83.76096 IN F

= 543.431 IN R PRESS 1 63.723 PRESS 2 63.688 THE AVE PHESSURE IS = 63.7055 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 75.54961 DEWPT 6 76.59669 I DEWPT 2 77.J5163 DEWPT 7 75. 72443 DEWPT 3 74.62178 DhWPT 8 77.56668 DEWAT 4 75.5698 DEWPT 9 /6.01335 DEWPT 5 76.47746 DhWPT 10 72.08027 THE AVE DEWPOINT WITH WEIGHTING FACTOHS IS = 75.66782 THE PWV IS = .4391736 PSIA THE MASS WEIGHT IS = 92690.3203125 LBM

BRUNSWICK SlEAM ELECTRIC PLANT UNIT 2 1986 ILRT

SUMMARY

OF IlRT MEASURED D4TA

i READING TAKEN AT TIME PF.RIOD : 230 DATE : 05-05-1986 R fD 1 86.3 R rD 16 84.65 RTD 2 86.76 RTD 17 8b.16001 RTD 3 90.46 R fD 18 84.63 RTD 4 89.9 RTD 19 79.64 RTD 5 91.05 RTD 20 78.39 RTD 6 91.83 Rl D 21 78.29 R fD 7 90.72 R r0 22 78.76 RTD 8 90.7 Rl D 23 78.96 R fD 9 89.94 R rD 24 79.47 RTD 10 90.93 Rl D 25 0 RTD 11 88.83999 RfD 26 0 RTD 12 88.97 Rl D 27 0 RTD 13 87.6 R fD 28 9 RTD 14 86.44 RTD 29 0 RfD 15 84.94 RTD 30 0 THE AVE RTD WITH WEIGHTING FACTORS IS = 83.76235 IN F

= 543.4523 IN R I

4 PRESS 1 63.722 PRESS 2 63.686 THE AVE PHESSURE IS = 63.704 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 75.54961 DEWPT 6 75.59669 DEWPT 2 77.J5153 DEWAT 7 75.94631 DEWPT 3 74.85038 DEWPT 8 77.1296b DEWPT 4 75.79166 DEWPT 9 76.01355 DEWPT 5 76.24887 DEWPT 10 72.08027 THE AVE DEWPOINT WITH WEIGHTING FACTOHS IS = 75.6J263 THE PWV IS = .4386601 PSIA THE MASS WEIGHT IS = 92688.640625 LBM

--n., . . . . - - . - - . . - - , .--- , ,----- , , , - - - - - - . . _ - - - - . - - - - - - - . - - - - - - . - - - . - - - - - - - . , - , . - -

1 l

BHUNSWICK S1EAM ELECTRIC PLANT UNIT 2 1986 ILHT

SUMMARY

09 IlRT MbASURED DATA

READING TAKEN A1 TIME PERIOD : 245 DATE : 05-05-1986 RfD 1 86.3 RTD 16 34.65 RTD 2 86.76 RTD 17 85.12 R fD 3 90.42 RTD 18 84.58999 RTD 4 89.,9 RTD 19 79.64 R fD 5 91.05 RTD 20 78.J9 RTD 6 91.79 RTD 21 78.29 RTD 7 90.72 RTD 22 78.72 RTD 8 90.66001 RTD 23 78.96 RTD 9 89.94 R fD 24 79.43 RTD 10 90.93 RTD 2b 0 RTD 11 88.88 RfD 26 0 RTD 12 88.93 RTD 27 0 RTD 13 87.6 RTD 28 9 RTD 14 86.32 RTD 29 0 RfD 15 84.94 RTD 30 0 THE AVE RTD WITH WFIGHTING FACTORS IS = 83.74815 IN F

= 543.43H2 IN R PRESS 1 63.72 PRESS 2 63.684 THE AVE PRESSURE IS = 63.702 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 75.54961 DEWPT 6 75.59669 DEWPT 2 77.35153 DEWPT 7 75.72443 DEWPT 3 74.85038 DhWPT 8 77.56668 DEWPT 4 75.79166 DEWPT 9 76.01355 DEWPT 5 76.24887 DEWPT 10 72.08027 l

THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.65525 THE PWV IS = .4389894 PSIA THE MASS WEIGHT IS = 92687.640625 LBM 4

BNUNSWICK STEAM ELECTRIC PLANT UNIT 2 a

1986 ILRT

SUMMARY

OF ILRT MEASURkD DHTA i

READING TAKEN AT TIME PkRIOD : 200 DATE : 05-06-1986 RfD 1 86.33999 R fD 16 84.69 RTD 2 86.83999 R1 D 17 85.16001 R .'D 3 90.46 RfD 18 84.63 RTD 4 89.94 R1 D 19 79.64 RTD 5 91.08999 RTD 80 78.J9 RTD 6 91.83 R1 D 21 78.29 RfD 7 90.76 R fD 22 /8.16 RTD 8 90.7 R1 D 23 78.96 RTD 9 89.94 RTD 24 /9.47 PTD 10 90.93 RTD 25 0

RTD 11 88.83999 R fD 26 0 RTD 12 88.97 RTD 27 0

! RTD 13 87.6 R fD 28 0

RTD 14 86.4 RTD 29 0 RTD 15 85.01999 RTD 30 0 THE AVE RTD WITH WEIGHTING FACTORS IS = 83.77419 IN F

= 543.4642 IN R i

i PRESS 1 63.727 PRESS 2 63.69 THE AVE PHESSURE IW = 63.7085 PSIA

DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 75.54961 DhWPT 6 76.59669 DEWPT 2 77.J5153 DEWPT 7 75.72443 DEWPT 3 74.85038 DEWPT 8 77.12965 i DEWPT 4 75.5698 DEWPT 9 75.79166 l DEWPT 5 76.24887 DhWPT 10 71.85168 i THE AVE DEWPOINT WITH WEIGHTING FACT 0HS IS = 75.54903 THE PWV IS = . 4374401 PSIA l

i THE MASS WEIGHT IS = 92694.9921875 LBM i

i

_ , . _ . - , . . . . _ _ _ _ . - _ _ . , . _ _ . . , . . , , .__._.__.__,_.-__.._m_ _ _ _ _ . , _ . _ _ . . _ , _ _ _ . . , , - _ _ _ _ _ _ _ . ,

4 BRUNSWICK STEAM ELECTRIC PLANT UNIT 2 1986 ILRT

SUMMARY

OF ILRT MhASURED DATA

READING TAKEN AT TIME PERIOD : 300 DATE : 05-05-1986 R fD 1 86.3 R fD 16 84.65 RTD 2 86.76 Rl D 17 86.12 R fD 3 90.46 Rr0 18 84.58999 l

RTD 4 89.9 R1 D 19 79.64 RTD 5 91.08999 RTD RO 78.J9

,. RTD 6 91.83 Rl D 21 78.29 R fD 7 90.72 RTD d2 78. /2 RTD 8 90.7 R1 D 23 78.96 RfD 9 89.94 RfD 24 79.43 RTD 10 90.89 R1 D 25 8 RTD 11 88.83999 RfD 26 0 RTD 12 88.97 RTD 27 8 RTD 13 87.6 R fD 28 9 RTD 14 86.48801 RTD 29 0 RTD 15 84.94 RTD JS e THE AVE RTD WITH WEIGHTING FACTORS IS = 83.75181 IN F

= 543.4418 IN R PRESS 1 63.719 PRESS 2 63.68 THE AVE PRESSURE IS = 63.6995 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 75.54961 DEWPT G 75.59669 DEWPT 2 77.J5153 DEWPT 7 75.72443 DEWPT 3 75.07225 DhWPT 8 77.3b153 DEWPT 4 75.79166 DEWPT 9 76.01355 DEWPT 5 76.24887 DEWPT 10 71.80168 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.61718 THE PWV IS = .4384337 PSIA i

THE MASS WEIGHT IS = 92684.1649625 LBM i

I l

l l

i

, . - , _ _ . . , . - , . , _ _ _ . ,._..,_.._-._,___m- _ , _ _ _ _ _ _ . _ , . , , , . - ._.,_ _ _ _ _ _ _ - .

BRUNSW8CK S1EAM ELEt:TH8C PLAN 7 UNIT 2 1986 ILRT

SUMMARY

OF II.RT MEASURED DATA

RkADING TAKEN AT TIME PERIOD 315 DATE : 06-05-1986 RfD 1 86.26 RTD 16 84.61 RTD 2 86.72 RTD 17 85.08 RTD 3 90.42 RfD 18 84.55 RTD 4 89.9 R1 D 19 79.64 RfD 5 91.05 RTD MO 78.J9 RTD 6 91.79 R1 D 21 78.29 RTD 7 90.72 R fD 22 78.72 RTD 8 90.66001 R1D 23 78.96 RTD 9 89.94 RTD 24 79.43 RTD 19 90.89 Rl D 2S S RTD 11 88.83999 R fD 26 0 RTD 12 88.93 R1 D 27 0 13 RTD 87.6 R fD 28 9 RTD 14 86.44 R1 D 29 0 RrD 15 84.9 RTD Je 0 THE AVE RTD WITH WEIGHTING FACTONS IS = 83.73526 IN F

= 543.4253 IN R t

PRESS 1 63.715 PRESS 2 63.679 THE AVE PHESSURE IS = 63.697 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 75.54961 DhWPT 6 75.59669 DEWPT 2 77.56668 DEWPT 7 75.72443 DEWPT 3 74.62178 DEWPT 8 77.35153 DEWPT 4 75.79166 DEWPT 9 /6.01355 DEWPT 5 76.24887 DhWPT 10 72.0H027 THE AVE DEWPOINT WITH WEIGHTING FACT 0HS IS = 75.634J3 THE PWV IW = .4386848 PSIA THE MASS WEIGHT IS = 92682.953125 LBM

BRUNSWICK SlEAM ELECTRIC PLANT UNIT 2 1986 ILRT

SUMMARY

Or IlRT MFASURED DATA

READING TAKEN AT TIME PERIOD : 330- DATE : 05-06-1986 RTD 1 86.26 RTD 16 84.61 RTD 2 86.72 RTD 17 85.04 RTD 3 90.42 RTD 18 84.51 RTD 4 89.9 Rl D 19 79.64 RTD 5 91.05 RTD 20 78.39 RTD 6 91.79 RTD 21 78.29 R fD 7 90.72 RTD 22 /8./2 RTD 8 90.66001 Rl D 23 78.96 RfD 9 89.94 R fD 24 79.43 RTD 19 90.89 Rl D 25 0 RfD 11 88.83999 R fD 26 0 RTD 12 88.93 Rl D 27 0 RTD 13 87.6 RfD 28 9 RTD 14 86.4 Rl D 29 0 RTD 15 84.9 RfD 30 0 THE AVE RTD WITH WFIGHTING FACTORS IS = 83.73064 IN F

= 543.4236 IN R PRESS 1 63.713 PRESS 2 63.676 THE AVE PRESSURE IS = 63.6945 PHIA DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 75.54961 DEWPT 6 75.59669 DEWPT 2 77.J5133 DEWPT 7 75.94631 DEWPT 3 75.07225 DEWPT 8 77.56668 DEWPT 4 75.79166 DEWPT 9 76.01355 DhWPT 5 76.24887 DEWPT 10 71.86168 THE AVE DEWPOINT WITH WEIGHTING FACTONS IS = 75.6631 THE PWV IS = .4391051 PSIA THE MASS WEIGHT IS = 926/9.46875 L9M

BRUNSWICK STEAM ELECTRIC PLANT UNIT 2 1986 ILRT

SUMMARY

OF ItRT MFASURED DATA

READING TAKEN A1 TIME P*RIOD : 345 DATE : Ob-Ob-1986 R fD 1 86.22 RTD 16 84.61 RTD 2 86.72 RTD 17 80 RTD 3 90.42 R fD 18 84.47 RTD 4 89.9 RlD 19 79.64 RfD 5 91.05 RTD 20 78.J9 RTD 6 91.79 RTD 21 78.29 RTD 7 90.72 R fD 22 78.72 RTD 8 90.66001 Rl D 23 78.96 RTD 9 89.94 RTD 24 79.43 RTD 10 90.89 RTD 25 0 RTD 11 88.83999 RfD 26 0 RTD 12 88.93 RTD 27 0 RTD 13 87.6 RfD 28 9 RTD 14 86.4 RTD 29 0 RTD 15 84.9 R fD 30 0 THE AVE RTD W1TH WEIGHTING FACTORS IS = 83.72497 IN F

= 543.415 IN R PRESS 1 63.71 PRESS 2 63.675 THE AVE PHESSURE IS = 63.6925 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 75.54961 DEWPT 6 75.59669 DEWPT 2 77.56668 DEWPT 7 75.72443 DEWPT 3 74.62178 DEWPT 8 77.35153 DEWPT 4 75.5698 DEWPT 9 76.01355 DEWPT 5 76.69261 DEWPT 10 71.85168 THE AVE DEWAOINT WITH WEIGHTING FACTORS IS = 75.66402 THE PWV IS = .4391185 PSIA THE MAHS WEIGHT IS = 92677.484375 LBM i

. . _ _ . _ . . ~ _ _ _ _ . _ _ . . _ . . _ . . . _ . _ _ . . . _ . _ , . _ _ . . . , . _ . _ _ _ . _ . . _ _ . . _ _ , _ _ _ . . . . . _

BRUNSW2CK STEAM ELECTRIC PLANT UNIT 2 1986 ILRT

SUMMARY

OF ILRT MEASURED DATA

READING TAKEN AT TIME PERIOD : 400 DATE : 05-05-1986 RfD 1 86.22 R fD 16 84.57 RTD 2 86.72 R1 D 17 84.96 R fD 3 90. J8 RfD 18 84.47 RTD 4 89,86 R1 D 19 79.64 R fD 5 91.05 R fD MO /8.39 RTD 6 91.79 R1 D 21 78.29 RTD 7 90.72 RfD 22 78.76 RTD 8 90.G6001 R1 D 23 78.96 RTD 9 89.94 RfD 24 79.43 RTD 10 90.89 RTD 25 0 RTD 11 88.83999 RfD 26 0 RTD 12 88.93 RTD 27 0 RTD 13 87.56 RfD 28 9 RTD 14 86.4 RTD 29 0 RTD 15 84.86 RTD 30 0 THE AVE RTD WITH WEIGHTING FACTORS IS = 83.71635 IN F

= 543.4064 IN R PRESS 1 63.709 PRESS 2 63.672 THE AVE PHESSURE IS = 63.6905 PSIA 1

DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 75.54961 DEWPT 6 75.37481 DEWPT 2 77.J5153 DEWPT 7 75.72443 DEWPT 3 74.86038 DEWPT 8 77.56668 DEWPT 4 75.5698 DEWOT 9 76.01355 DEWPT 5 76.24887 DhWPT 10 71.85168 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.56705 THE PWV IS = .4377031 PSIA THE MASS WEIGHT IS = 92678.09375 LBM

{

i

- . - - . _ . ,.._._. _ ._ _-._._w. _ - _ , , _ , , _ . _ _ _ - - - - . , - - - - - - , . _ . _ _ - . . . , , _ , , - _ _ - - - - _ _ _ , . - . _ _ _ _ _ . . _ . _ _ _ _

., , . _y, --

BRUNSWICK S1ERM ELECTRIC PLANT UNIT 2 1986 ILRT

SUMMARY

OF ItRT MFASURhD DATA

READING TAKEN AT TIME PERIOD : 415 DATE : 05-05-1986 i

RTD 1 86.22 RTD 16 84.57 RTD 2 86.68 RTD 17 84.96 RTD 3 90.38 RfD 18 84.43 RTD 4 89.82 R1 D 19 79.64 RfD 5 91.01 RfD 20 78.39 RTD 6 91.79 R1 D 21 78.29 RfD 7 90.72 RfD E2 78.72 RTD 8 90.66001 R1 D 23 78.96 R fD 9 89.94 RfD 24 79.43 RTD 10 90.86 RTD 25 0 RTD 11 88.83999 R fD 26 0 RTD 12 88.93 R1 D 27 0 RfD 13 87.56 RfD 28 9 RTD 14 86.4 R1 D 29 0 RTD 15 84.82 RfD 30 0 4

THE AVE RTD WITH WEIGHTING FACTONS IS = 83.70589 IN F

= 543.3959 IN R I

PRESS 1 63.707 PRESS 2 63.67 THE AVE PHESSURE IS = 63.6885 PSIA i DEWCELLS WERE CONVERTED TO DEWPOINT i

DEWPT 1 75.54961 DEWPT & 75.37481 DEWPT 2 77.J5153 DEWPT 7 75.72443 DEWPT 3 75.30085 DEWPT 8 77.35153 DEWPT 4 75.5698 DEWPT 9 76.01355 DEWPT 5 76.24887 DhWDT 10 71.8'168 s THE AVE DEWPOINT WITH WEIGHTING FACTOHS IS = 75.56183 THE PWV IS = .4376273 PSIA THE MASS WEIGHT IS = 92677.0625 LBM i

4 -

BNUNSW3CK S1EAM ELECTRIC PLANT UNIT 2 1986 ILHT

SUMMARY

O' ILRT MEASURhD DATA

READING TAKEN AT TIME PhRIOD : 430 DATE : Ob-Ob-1986 R~D 1 86.22 RTD 16 84.53 RTD 2 86.68 R1 D 17 84.88 RfD 3 90.42 RTD 18 84.39 RTD 4 89.8d RTD 19 79.64 RTD 5 91.01 RTD 20 /8.39 RTD 6 91.79 RTD 21 78.29 RTD 7 90.72 RTD 22 /8.72 RTD 8 90.66001 R1 D 23 78.96 RTD 9 89.9 RfD 24 19.43 RTD 10 90.86 R1 D 25 0 RTD 11 88.83999 RfD 26 0 RTD 12 88.89 Rl D 27 0 R fD 13 87.56 RfD 28 9 RTD 14 86.44 RTD 29 0 RTD 15 84.78 R fD Je e THE AVE RTD WITH WEIGHTING FACTORS IS = 83.69133 IN F

= 543.J814 IN R PRESS 1 63.705 PRESS 2 63.668 THE AVE PHESSURE IS = 63.6865 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 75.54961 DEWPT 6 75.37481 DEWAT 2 77.35153 DEWPT 7 75.72443 DEWPT 3 74.85038 DEWPT 8 77.35153 DEWAT 4 75.79166 DEWRT 9 /6.01355 DEWPT 5 76.24887 DEWPT 10 71. 8'J 168 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.857J8 THE PWV IS = .4375625 PSIA

THE MASS WEIGHT IS = 92676.7109375 LBM i

. h.m , . _

BNUNSWICK S1EAM ELECTRIC PLANT UNIT 2 1986 ILRT SUMMHRY CH It.RT MFASURED DATA

READING TAKEN Al TIME PERIOD : 445 DATE : Ob-06-1986 RfD 1 86.22 RTD 16 164. 5 3 RTD 2 86.68 RTD 17 84.88 RTD 3 90.33999 R fD 18 84. J5 RTD 4 89.82 R1 D 19 79.64 RTD 5 91.01 RTD 80 78.39 RTD 6 91.75 RTD 21 78.29 RTD 7 90.68 RTD 22 78.72

~

RTD 8 90.G6001 RTD 23 78.96 RTD 9 89.9 RfD 24 /9.43 RTD 10 90.85 RTD 25 0 RTD 11 88.8 RTD 26 0 RTD 12 88.89 Rl D 27 0 RTD 13 87.56 R fD 28 9 RTD 14 86.4 RTD 29 0 RTD 15 84.74 R fD Je 0 THE AVE RTD W1TH WHIGHTING FACTONS IS = 83.68343 IN F

= 543.3735 IN R PRESS 1 63.703 PRESS 2 63.666 THE AVE PHESSURE IS = 63.6845 PSIA 4

DEWCELLS WERE CONVERTED TO DEWPOINT

DEWPT 1 75.54961 DEWPT & 75.37481 DEWPT 2 77.35153 DEWAT 7 75. /2443 DEWPT 3 74.62178 DtdWPT 8 77.12965 DEWPT 4 75.5698 DEWoT 9 75.79166 DEWPT 5 76.03371 DkWPT 10 71.85168 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.45666 THE PWV IS = .4360973 PSIA THE MASS WEIGHT IS = 92677.28125 LBM

{

L_ - _: . - - - _ . .-- __ _ . _ - _ _ . . . - _ _ - _ _ _ _

.- __- .- . ~ . _ _ _ _

BNUN2 WICK STEAM ELECTRIC PLANT UNIT 2 1986 ILRT

SUMMARY

OF ILRT MEASURED DATA

RkADING TAKEN AT TIME PERIOD : 500 DATE : 05-05-1986 RTD 1 86.18 R fD 16 84.53 R1 D 2 86.68 R1 D 17 84.88 RTD 3 90.33999 RTD 18 84.J5 Rl D 4 89,82 R1 D 19 79.64 RfD 5 91.01 RTD MO /8. J9 RTD 6 91.71 R1 D 21 78.29 RTD 7 90.68 R fD *2 78.12 RTD 8 90.66001 R1 D 23 78.96 RTD 9 89.9 R fD 24 79.43 RTD 10 90.85 RTD 25 0 RTD 11 88.8 R fD 26 e i RTD 12 88.89 RTD 27 0

RTD 13 87.56 RTD 28 9 RTD 14 86.4 RTD 29 0 RTD 15 84.74 RfD 30 0 THE AVE RTD WITH WEIGHTING FACTONS IS = 83.68191 IN F

= 543.3/2 IN R i

PRESS 1 63.701 PRESS 2 63.664 THE AVE PRESSURE IS = 63.68251 PSIA i DEWCELLS WERE CONVERTED TO DEWPOINT t

DhWPT 1 75.54961 DhWPT 6 75.37481 DEWPT 2 77.35153 DEWPT 7 75.72443 DhWPT 3 74.85038 DEWPT 8 77.56668 DEWPT 4 75.5698 DEWPT 9 /6.01355 DhWPT 5 76.03371 DhWPT 10 71.86168 i

THE AVE DEWPOINT WITH WEIGHTING FACTDHS IS = 75.53473 THE PWV IS = .4372329 PSIA l

4 THE MASS WEIGHT IS = 92672.9375 LBM i

i

- , . . _ -- _ _ _ _ - - _ , . _ _ _--m- . _ _ . . _ . _ , _ _ _ _

SHUNSWICK S1EAM ELECTR1C PLANT UNIT 2 1986 ILRT

SUMMARY

OF IlRT MEASURED DATA -

READING TAKEN AT TIME PERIOD : 515 DATE : Ob-Ob-1986 RTD 1 86.18 RTD 16 84.49 RTD 2 86.6 RTD 17 84.88 RTD 3 90.33999 RTD 18 84.J5 RTD 4 89.78 RTD 19 79.64 RTD 5 91.01 RTD MO 78.J9 RTD 6 91.71 R1 D 21 78.29 R fD 7 90.68 R fD 22 78.72 RTD 8 90.66001 R1 D 23 78.96 R TD 9 89.9 R TD 24 79.43 RTD 10 90.85 R1 D 25 0 RTD 11 88.8 R FD 26 0 RTD 12 88.89 Rl D 27 0 RTD 13 87.56 R r0 28 9 RTD 14 86.44 RTD 29 0 RTD 15 84.74 RTD Ja e THE AVE RTD WITH Wh!GHTING FACTORS IS = 83.67675 IN F

= 543.3668 IN R i

PRESS 1 63.698 PRESS 2 63.66 THE AVE PRESSURE IS = 63.679 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 75.54961 DEWPT 6 75.37481 DEWPT 2 77.J5153 DEWPT 7 75.72443 DEWPT 3 74.62178 DFWPT 8 77.3b153 DEWPT 4 75.5698 DEWPT 9 76.01355 DEWPT 5 75.03371 DhWPT 10 71.8L168 THE AVE DEWPOINT W!rH WEIGHTING FACTORS IS = 75.50331 THE PWV IN = .4367744 PSIA THE MASS WEIGHT IS = 92669.359375 LBM

e- -

- , - , ,,e- n~--,, -----,v--- - - - - - - - - - - - - - - - - - - - . - - - - - - - - - - - - -- , - - - - - - - - - , - - - - - - - - -

BRUNSW8CK SlEAM El.ECTRIC PLANT UNIT 2 1986 ILHT

SUMMARY

OF II.RT MF ASUR6D DATA

READING TAKEN AT TIME PERIOD : 530 DATE : 05-05-1986 RTD 1 86.14 RTD 16 84.49 RTD 2 86.64 Rl D 17 84.83999 RTD 3 90.33999 RfD 18 84.31 RTD 4 89.78 RTD 19 79.64 RTD 5 90.97 RTD 20 18.39 RTD G 91.71 Rl D 21 78.29 RfD 7 90.68 RTD 22 18.72 RTD G 90.G2 RTD 23 78.96 RTD 9 89.9 R rD 24 79.43 RTD 10 90.85 RTD 25 0 RfD 11 88.8 RfD 26 0 RTD 12 88.89 Rl D 27 0 RfD 13 87.51999 R fD 28 9 RTD 14 86.44 Rl D 29 0 RTD 15 84.7 R fD 30 8 THE AVE RTD WITH WEIGHTING FACTORS IS = 83.66582 IN F

= 543.3568 IN R PRESS 1 63.696 PRESS 2 63.658 THE AVE PHESSURE IS = 63.677 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 75.54961 DEWPT 6 75.37481 DEWPT 2 77.35153 DEWPT 7 75.72443 DEWPT 3 74.62178 DhWPT 8 77.56668 DEWPT 4 75.5698 DEWPT 9 76.01355 DEWPT 5 76.24887 DhWPT 10 71.86168 THE AVE DEWPOINT WIrH WEIGHTING FACTOHS IS = 75.55823 THE PWV IS = .4375744 PSIA THE MASS WEIGHT IS = 92667.125 LSM

. . - , . , e, ._,- - - - - - - , - em,-- _.,-,w-,g .,,-,4 -e- y _,,_m_ _ - - , , - - - . - . _ - , - _ , - . - _ . - - -

T - - - . - -r--- -- 1

BRUNSWICK C1E4M ELECTRIC PLANT UNIT'2 1986 ILRT

SUMMARY

OF II.RT MEASURED DATA

READING TAKEN Al TIME PERIOD : 545 DATE eb-05-1986 RfD 1 86.14 RTD 16 84.49 RTD 2 86.6 Rl D 17 84,839?9 RTD 3 90. 3 R fD 18 64.31 RTD 4 89,78 R1 D 19 79.64 RTD 5 90.97 RTD 80 /8.J9 RTD 6 91.67 RTD 21 78.26 RTD 7 90.68 RTD 22 78.72 RTD 8 90 G2 RTD 23 78.96 RTD 9 89.86 RTD 24 79.43 RTD 10 '90.85 RTD 23 0 RTD 11 88.8 RfD 26 0 RTD 12 88.8S RTD 27 0 RTD 13 87.51999 R fD 28 9 RTD 14 86.44 RTD 29 0 RTD 15 84. 7 R fD 30 0 THE AVE RTD WITH WEIGHTING FACTORS IS = 83.6's767 IN F

= 543.3477 IN R PRESS 1 63.691 PRESS 2 63.656 THE AVE PRESSURE IS = 63.6755 Pt I A DEWCELLS WERE CONVERTED TO DEWPOINT DhuPT 1 75.5':051 DEMPT 0 75.15005 DEWPT 2 77.35153 DEWAT 7 75.72443 DEWPT 3 74.85038 DEWPT 8 77.35153 DEWAT 4 75.5698 DEWPT 9 75.79166 DEWPT 5 76.24887 DEWPT 10 71.85168 ,

THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = /5.47145 THE PWV IS = .4363113 PSIA THE MASS WEIGHT (S = 92665.2421875 LBM e

BRUNSWICK S1EAM ELECTR2C PLANT UNIT 2 1986 ILRT

SUMMARY

OF ILRT MEASURED DATA

READING TAKEN AT TIME PERIOD : 600 DATE : 05-05-1986 RTD 1 86.1 RTD 16 44.45 RTD 2 86.56 RTD 17 84.82 RTD 3 90.33999 RfD 18 84.26999 RTD 4 89.78 Rl D 19 79.64 RTD 5 90.97 RTD 20 78.J9 RTD 6 91.6/ Rl D 21 78.26 RTD 7 90.68 RfD 22 /8.72 RTD 8 S0.62 Rl D 23 78.96 RTD 9 89.86 RTD 24 79.43 RTD 10 90.81 RTD 25 0 RTD 11 88.8 R fD 26 0 RTD 12 88.85 RTD 27 0 RTD 13 87.51999 R fD 28 9 RTD 14 86.32 RTD 29 0 RTD 15 84.7 R fD 30 0 THE AVE RTD WITH WEIGHTING FACTONS IS = 83.64919 IN F

= 543.3392 IN R PRESS 1 63.69 PRESS 2 63.653 THE AVE PRESSURE IS = 63.6715 PHIA DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 73.32773 DEWWT 6 75.25965 DEWPT 2 77.J5153 DEWPT 7 75. /2443 DhWPT 3 74.85038 DhWPT 8 77.35153 DEWPT 4 75.5698 DEWPT 9 75.79166 DEWPT 5 76.24887 DEWPT 10 71.86168 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.45975 THE PWV IS = .436142 PSIA THE MASS WEIGHT IS = 92664.0078125 LBM

BNUNSW8CK STEAM ELECTRIC PLANT UNIT 2 1986 ILRT

SUMMARY

OF II.RT MFASURbD D4TA

READING TAKEN AT TIME PERIOD : 615 DATE : Ob-06-1986 RTO 1 86.1 R fD 16 84.41001 RTD 2 86.56 RTD 17 84.76999 RTD 3 90.26 RTD 18 84.26999 RTD 4 89.78 RTD 19 79.64 RTD 5 90.97 RTD MO 78.39 RTD 6 91.67 RTD 21 78.26 R fD 7 90.64 R fD 22 78.72 RTD 8 9W.58 RTD 23 78.92 RTD 9 89.86 RTD 24 79.43 RTD 10 '90.81 RTD 25 0 RfD 11 88.8 RfD 26 0 -

RTD 12 88.85 Rl D 27 0 RTD 13 87.51999 R fD 28 9 RTD 14 86.48001 RTD 29 0 RTD 15 84.66001 RfD Je 0 THE AVE RTD WITH WEIGHTING FACTOHS IS = 83.63688 IN F

= 543.3269 IN R PRESS 1 63.687 PRESS 2 63.651 THE AVE PHESSURE IS = 63.669 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT l

DEMPT 1 75.5^O51 Di.'JPT C 76.07401 l

DEWPT d 77.J5153 DEWPT 7 75.94631 l DEWPT 3 74.62178 DbWPT 8 77.1296b DEWPT 4 75.5698 DEWPT 9 76.01355 DEWPT 5 76.03371 DEWPT 10 71.85168 THE AVE DEWPOINT WITH WEIGHTING FACTONS IS = 15.5033 THE PWV IS = .4367744 PSIA i

THE MASS WEIGHT IS = 92661.5 LBM l

t

---,,--.+y - - .

.p, ,-

--# g -m.. , ,- g - - - . , - .,.,y-

I l

BRUNSW2CK S1EAM ELECTRIC PLANT UNIT 2 1986 ILRT

SUMMARY

Ok IsRT MEASURED DATA

ftEADING TAKEN AT TIME PPRIOD : 630 DATE : 06-0S-1986 RTD 1 86.1 RTD 16 84.41001 RTD 2 86.56 RTD 17 84,73001 RTD 3 90.26 RfD 18 84.23001 RTD 4 89.74 RTD 19 79.64 RTD 5 90.97 RTD 20 /8.J9 RTD 6 91.67 RTD 21 78.29 RTD 7 90.64 RfD 22 78.72 RTD 8 90.58 RTD 23 78.96 RTD 9 89.82 R fD 24 79.43 RTD 10 90.81 RTD 25 0 RTD 11 88.76 RfD 26 0 RTD 12 88.86 R1 D 27 0 RfD 13 87.48001 RfD 28 9 RTD 14 86.4 R1 D 29 0 RTD 15 84.62 RTD 30 0 THE AVE RTD WITH WEIGHTING FACTORS IS = 83.6P956 IN F

= $43. 31'36 IN R PRESS 1 63.685 PRESS 2 63.648 THE AVE PHESSURE IS = 63.6665 PSIA l DEWCELLS WERE CONVERTED TO DEWPOINT l

DEWPT 1 75.32775 DEWPT 6 75.15965 DEWAT 2 77.35153 DEWPT 7 75.72443 DEWPT 3 74.62178 DhWPT 8 77.35153 l DEWAT 4 75.5699 DEWPT 9 75.79166 l

DEWPT 5 76.03371 DbWPT 10 71.86168 l THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.41861 i THE PWV IS = .4355445 PSIA 1

I THE MASS WEIGHT IS = 92660.8984375 LBM l

e--

BRUNSWICK S1EAM ELECTRIC PLANT UNIT 2 1986 ILRT

SUMMARY

Ok I'.RT Mt'ASURED DATA

READING TAKEN Al TIME P*RIOD : 645 DATE : 05-05-1986 R fD 1 86.1 RfD 16 84.41001 RTD 2 86.51999 Rl D 17 84.69 RTD 3 90.22 RTD 18 84.23001 RTD 4 8% 7 Rl D 19 79.64 RTD 5 90.92 RTD EO 78.39 RTD 6 91.67 Rl D 21 78.29 RTD 7 90.64 RTD 22 78.72 RTD 8 90.54 RTD 23 78.92 RTD 9 89.86 R fD 24 79.43 RTD 10 90.76999 R1 D 25 0 RTD 11 88.76 RfD 26 0 RTD 12 88.81 Rl D 27 0 RTD 13 87.48001 R fD 28 9 RTD 14 86.44 RTD 29 0 RTD 15 84.58 R fD 30 0 THE AVE RTD WITH WEIGHTING FACTORS IS = 83.61548 IN F

= 543.30b5 IN R PRESS 1 63.681 PRESS 2 63.644 THE AVE PRESSURE IS = 63.6625 PSIA DEWCELLS WERE CONVERTED 00 DFWPOINT DEWPT 1 75.32775 DEWPT 6 75.1596b DEWPT 2 76.91449 DEWPT 7 75.72443 DEWPT 3 74.62178 DEWPT 8 77.12965 DEWPT 4 75.5698 DEWPT 9 75.79166 DEWPT 5 76.24887 DEWPT 10 71.85168 THE AVE DEWQOINT WITH WEIGHTING FACTORS IS = 75.40624 THE PWV IS = .4353649 PSIA THE MASS WEIGHT IS = 92657.703125 L8M

" " ' N' e7 - - -w a - __ _ . _ _ - _

BRUNSWICK STEAM ELECTRIC PLANT UNIT 2 1983 ILRT

SUMMARY

Oh ILRT MFASURED DATA

READING TAKEN AT TIME DE.RIOD : 700 DATE : 05-05-1986 RfD 1 86.05 RTD 16 334. 37 RTD 2 86.51999 Rl D 17 84.65 R fD 3 90.26 RfD 18 84.19 RTD 4 89.74 Rl D 19 79.64 RfD 5 90.92 RTD :10 /8.39 RTD 6 91.63 Rl D 21 78.26

, RTD 7 90.6 RTD 22 78.68 RTD 8 90.54 R1 D 23 78.92 RTD 9 89.82 R fD 24 /9.43 RTD is 90.76999 Rl D 25 0 RTD 11 88.76 RfD 26 0 RTD 12 88.81 RTD 27 0 RTD 13 87.44 RfD 28 9 RTD 14 86.56 R1 D 29 0 RTD 15 84.54 RfD 30 0 THE AVE RTD WITH WEIGHTING FACTORS IS = 83.59699 IN F

= 543.287 IN R PRESS 1 63.678 PRESS 2 63.642 THE AVE PHESSURE IS = 63.66 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 75.32775 DEWPT 6 75.15965 DEWPT 2 77.12965 DEWPT 7 75.72443 DEWPT 3 74.62178 Dt-WPT 8 7,7.56668 DEWPT 4 73.5698 DEWPT 9 75.79166 DEWPT 5 76.03371 DhWPT 10 71.86168 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.43038 THE PWV IS = .4357153 PSIA THE MASS WEIGHT IS = 926:56.6796875 LBM l

t i

{

i

4 BHUNSW8CK S1EAM ELECTR3C PLANT UNIT 2 1986 ILHT

SUMMARY

O> II.RT Mt ASURED DATA

READING TAKEN AT TIME PERIOD :

715 DATE : 05-06-1986 RfD 1 86.06 RTD 16 H4.J3 RTD 2 86.51939 RTD 17 84.61 RTD 3 90.22 R fD 18 84.19 RTD 4 89.74 RTD 19 79.64 RTD 5 90.88 RTD H0 78.J9 RTD 6 91.58999 R1 D 21 78.26 RTD 7 90. 6 RfD 22 78.72 RTD 8 90.54 Rl D 23 78.92 t

RTD 9 89.82 R fD 24 79.43 RTD is 90.76999 Rl D 2b 0 RfD 11 88.72 R fD 26 0 RTD 12 88.81 Rl D 27 0 RTD 13 87.44 R fD 28 0 RTD 14 86.44 RTD 29 0 RTD 15 84.5 R fD 30 0 THE AVE RTD WITH WEIGHTING FACTORS IS = 83.59043 IN F

= 543.2804 IN R PRESS 1 63.678 PRESS 2 63.637 THE AVE PRESSURE IS = 63.6575 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DEW 47 i 75.32775 ur.ww b /s.13965 DEWPT 2 77.12965 DEW 9T 7 75./2443 DhWPT 3 74.62178 DEWPT 8 77.3b153 DEWPT 4 75.5698 DEWPT 9 75.79166 DEWPT 5 76.03371 DFWPT 10 71.8bl68 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.40776 THE PWV IS = .4353864 PSIA THE MASS WEIGHT IS = 92654.625 LBM

BRUNSWICK S1EAM ELECTRIC PLANT UNIT 2 19'46 ILRT

SUMMARY

Gr II.RT MFASURED DATA

READING TAKEN AT TIME PhRIOD : 730 DATE : 05-05-1986 RTD 1 86.01999 RTD 16 84.29 RTD 2 86.51999 R1 D 17 84.61 RTD 3 90.14 RTD 18 84.15 RTD 4 89,.7 R1 D 19 79.64 RTD 5 90.88 RTD 80 78.39 RTD 6 91.58999 RTD 21 78.26 RTD 7 90.6 R fD 22 78.72 RTD 8 90.54 R1 D 23 78.92 R fD 9 89.82 R fD 24 79.43 RTD 10 90.73001 R1 D 25 0 RfD 11 88.72 R fD 26 - 0 RTD 12 88.76999 R1 D 27 0 RTD 13 87.4 R fD 28 9 RTD 14 86.44 R1 D 29 0 RfD 15 84.5 R fD 30 0 THE AVE RTD WITH WFIGHTING FACTORS IS = 83.57574 IN F

= 543.2658 IN R a

PRESS 1 63.673 PRESS 2 63.634 THE AVE PHESSURE IS = 63.6535 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT i 75.3a775 utwPI b 7s.15965 DEWPT 2 77.12965 DEWPT 7 75.72443 DEWPT 3 74.62178 DEWPT 8 77.56668 DEWAT 4 75.5698 DEWAT 9 76.01355 DEWPT 5 76.03371 DEWPT 10 71.86168 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.45369 THE PWV IS = .4360532 PSIA THE MASS WEIGHT IS = 92650.27J4375 LBM

BHUNSWICK STEAM ELECTRIC PLANT UNIT 2 1985 ILRT

SUMMARY

OF II.RT MEASURED DATA

READING TAKEN Al TIME PFRIOD : 745 DATE : Ob-05-1986 RTD 1 86.01999 RTD 16 44.29 RTD 2 G6.48001 R1D 17 84.57 RTD 3 90.18 RTD 18 84.11 RTD 4 89.66001 RTD 19 79.64 RTD 5 90.88 RTD 80 /8. J9 RTD 6 91.55 R1 D 21 78.26 RTD 7 90.56 RTD 22 78. /2 RTD 8 90.5 RTD 23 78.92 RTD 9 89.82 RTD 24 79.43 RTD 10 90.73001 Rl D 25 0 RTD 11 88.68 R fD 26 0

, RTD 12 88.76999 RTD 27 0 RTD 13 87.4 R fD 28 0 RTD 14 86.28 R1 D 29 0 RTD 15 ,

84.46 RTD 30 0 THE AVE RTD WITH WEIGHTING FACTORS IS = 83,56543 IN F

= d43.25h5 IN R PRESS 1 63.672 PRESS 2 63.6J2 THE AVE PHESSURE IS = 63.662 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DC' *PT 1 75.00T70 DEWWT 6 73.13565 DEWPT 2 76.91449 DEWPT 7 75./2443 DEWPT 3 74.62178 DEWPT 8 77.56668 DEWPT 4 75.J4791 DEWPT 9 75./9166 DEWPT 5 75.81184 DEWPT 10 71.86168 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.37359 THE PWV IS = .4348914 PSIA l

THE MASS WEIGHT IS = 92651.5468/5 L8M

. -m- --. - - -

,,,-.m-_, , _ _ _ - - - . -- .- ,__ ,,__

BHUNSWICK STEAM ELECTRAC PLANT UNIT 2 1986 ILRT

SUMMARY

OW II.RT MEASURED D4TA

READING TAKEN AT TIME PERIOD : 800 DATE : 05-05-1986 RfD 1 86.01 RTD 16 M4.25 RTD 2 85.48001 R1 D 17 84.5/

RfD 3 90.22 R fD 18 84.11 4

RT D 4 89.66001 RTD 19 79.64 RTD 5 90.83999 RTD MO /8.J5 i

RTD 6 91.55 R1 D 21 78.26 RfD 7 90.56 RTD R2 78. /2 RTD 8 90.46 R1 D 23 78.92 RTD 9 89.78 RfD 24 79.43 RTD 10 90.73001 R1 D 25 0 RTD 11 88.68 RfD 26 0 RTD 12 88.,3001 R1 D 27 0 RTD 13 87.4 R fD 28 9 RTD 14 86.32 RTD 29 0 RTD 15 84.42 R fD 30 0 THE AVE RTD WITH WEIGHTING FACTORS IS = 83.55372 IN F

= 543.2437 IN R PRESS 1 63.669 PRESS 2 63.63 THE AVE PHESSURE IS = 63.6495 PSIA '

DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 75.32775 DEWPT 6 75.15965 DEWPT 2 77.35153 DEWPT 7 75.72443 1 DEWPT 3 74.62178 DFWPT 8 77.56668 l DEWAT 4 75.5698 DEWPT 9 76.21355 i DEWPT 5 75.81184 DEWPT 10 71.86169 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.43121 THE PWV IS = .4357271 PSIA i

THE MASS WEIGHT IS = 92648.6484375 LBM

.- _ . . = . - - -- _ - - - - - - . . - - - - - - - - - - - - - - - - - - - - - - - - - -- --- -

BRUNSWICK SlEAM ELECTRAC PLANT UNIT 2 1986 ILRT

SUMMARY

OF ILRT MFASURED DATA

READING TAKEN AT TIME PERIOD : 815 DATE : 05-05-1986 RTD 1 85.98001 RTD 16 64.25 RTD 2 86.44 RTD 17 84.53 RTD 3 90.18 R fD 18 84.11 RTD 4 89.66001 RTD 19 79.6 RTD 5 90.83999 RTD MO 78.35 RTD 6 91.55 RTD 21 78.26 RTD 7 90.51999 RTD 22 78.72 RTD 8 90.46 R1 D 23 78.92 RTD 9 89.78 R (D 24 79.J9 RTD 10 90.73001 Rl D 2S O RTD 11 88.68 R fD 26 0 RTD 12 88.73001 Rl D 27 0 R fD 13 87.32 R fD 28 0 RTD 14 86.32 RTD 29 0 RTD 15 84.42 R fD 30 0 THE AVE RTD WITH WEIGHTING FACTORS IS = 83.53666 IN F

= 543.2267 IN R PRESS 1 63.666 PRESS 2 63.627 THE AVE PHESSURE IS = 63.6465 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DCWPT 1 73.32773 DhWPT 6 75.2596s DEWPT 2 77.12965 DEWPT 7 75.72443 DEWPT 3 74.62178 DEWPT 8 77.12965 DEWPT 4 75.5698 DEWPT 9 76.01355 DEWPT 5 75.81184 DEWPT 10 71.8U168 THE AVE DEWPOINT WIfH WEIGHTING FACTORS IS = 75.37443 THE PWV IS = 4349032 PSIA THE MASS WEIGHT IS = 92648.3671875 LBM

BHUNSWICK STEAM ELECTRIC PLANT UNIT 2 1986 ILHT

SUMMARY

OF IlRT MEASURED D4TA

READING TAKEN AT TIME PERIOD : 840 DATE : 05-0b-1986 RTD 1 85.98001 RTD 16 84.21 RTD 2 86.44 RTD 17 84.53 RTD 3 90.14 RTD 18 84.07 RTD 4 89.62 Rl D 19 79.64 RTD 5 90.83999 RTD 80 78.J5 RTD 6 91.5b RTD 21 78.26 RTC 7 90.51999 RTD 22 78. /2 RTD 8 90.46 Rl D 23 78.92 RTD 9 89.78 RTD 24 19. 39 RTD 10 90.68 R1 D 25 0 RfD 11 88.64 R fD 26 0 RTD 12 88.73001 Rl D 27 0 RfD 13 87.32 RfD 28 0 RT D 14 86.28 R1 D 29 0 RTD 15 84.38 R fD 32 0 THE AVE RTD WITH WEIGHTING FACTORS IS = 83.5293 IN F

= 543.2193 IN R PRESS 1 63.664 PRESS 2 63.625 l

THE AVE PHESSURE IS = 63.6445 PSIA l

DEWCELLS WERE CONVERTED TO DEWPOINT

DEWPT 1 75.09243 DEWPT 6 75.15965 l DEWPT 2 77.12965 DEWPT 7 75.72443 .

l DEWPT 3 74.62178 DEWPT 8 77.35153 t DEWAT 4 75.34791 DEWPT 9 76.01355 DEWPT 5 75.81184 DEWPT 10 71.86168 THE AVE DEWPOINT WITH WEIGHTING FACTOHS IS = 75.37242 THE PWV IS = .4348747 PSIA l THE MASS WEIGHT IS = 92646.7J4375 LBM l

BHUNSW8CK STEAM ELECTRIC PLANT UNIT 2 1986 ILRT

SUMMARY

OF II.RT MFASURED DATA

READING TAKEN Al TIME P'R10D : 845 D4TE : 05-06-1986 RTD 1 85.98001 R fD 16 84.17 RTD 2 86.44 R1 D 17 84.49 R fD 3 90.1 RfD 18 84.07 RTD 4 89.62 R7 D 19 79.64 RTD 5 90.83999 RTD 20 78.39 RTD 6 91.51 RTD 21 78.26 RTD 7 90.51999 RTD 22 /8.68 RTD 8 90.42 RTD 23 78.92 RTD 9 89.74 RTD 24 79.39 RTD 10 90.68 RTD 2b 0 R fD 11 88.64 R fD 26 0 RTD 12 88.69 RTD 27 0 R fD 13 87.32 R fD 28 9 RTD 14 86.36 R1 D 29 0 RTD 15 84.38 RfD 30 0 THE AVE R1D WITH WEIGHTING FACTORS IS = 83.51915 IN F

= 543.2092 IN R PRESS 1 63.662 PRESS 2 63.623 THE AVE PRESSURE IS = 63.6425 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 75.32775 DEWPT 6 75.15965 DEWAT 2 77.12965 DEWPT 7 75.72443 DEWPT 3 74.62178 DEWPT 8 77.35153 DEWPT 4 75.34791 DEWPT 9 76.01355 DEWPT 5 75.81184 DEWPT 10 71.85168 THE AVE DEWPOINT WITH WEIGHTING FACTOHS IS = 75.J8482 THE PWV IS = .4350541 98IA THE MASS WEIGHT IS = 92645.265625 LSM

BRUNSWICK STEAM ELECTR1C PLANT UNIT 2 1986 ILRT

SUMMARY

OF It.RT MEASURED DATA

READING TAKEN AT TIME PERIOD : 900 DATE : 06-05-1986 R fD 1 85.98001 R fD 16 34.17 RTD 2 86.44 Rl D 17 84.4b R fD 3 90.06 RTD 18 84.03 RTD 4 89.66001 RTD 19 79.64 RTD 5 90.83999 RfD 80 78.J9 RTD 6 91.51 Rl D 21 78.26 RTD 7 90.51999 RfD 22 /8.72 RTD 8 90.42 Rl D 23 78.92 R fD 9 89.74 R fD 24 79.43 RTD 10 90.68 Rl D 25 0 RTD 11 88.64 R fD 26 0 RTD 12 88.69 Rl D 27 0 RTD 13 87.32 R rD 28 9 RTD 14 86.32 RTD 29 0 RTD 15 84.38 R fD 30 0 THE AVE RTD WITH WEIGHTING FACTORS IS = 83.52015 IN F

= 543.2101 IN R PRESS 1 63.662 PRESS 2 63.622 THE AVE PRESSURE IS = 63.642 PSIA DEWCELLS WERE CUNVERTED TO DEWPOINT DEWPT 1 75.09243 DEWPT 6 74.93778 DEWPT 2 77.12965 DEWPT 7 75. /2443 DhWPT 3 74.3999 DEWPT 8 77.35153 DEWPT 4 75.J4791 DEWPT 9 /5./9166 DhWPT 5 75.81184 DFWPT 10 71.8bl68 I

THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = /5.2893 THE PWV IS = .4336716 PSIA THE MASS WEIGHT IS = 92646.3984375 LBM

BRUNSW3CK STEAM ELECTRIC PLANT UN2T 2 l 1986 8LRT '

SUMMARY

OF It.RT MEASURED DATA

        • VERIFICATION ILRT TEST ****

READING TAKEN Al TIME PhRIOD : 1000 DATE : 05-05-1986 RfD 1 85.98001 RTD 16 84.08999 RTD 2 86.44 RTD 17 84.33 RTD 3 90.06 RTD 18 83.95 RTD 4 89.58 RTD 19 79.64 RTD 5 90.76 RTD 80 78.39 RTD 6 91'.47 Rl D 21 78.26 RTD 7 90.48201 RTD 22 78. /2 RTD 8 90.38 RTD 23 78.92 R fD 9 89.7 RTD 24 79.39 .

RTD 10 90.64 Rl D 25 0 RTD 11 88.6 R'f D 26 0 RTD 12 88.66 Rl D 27 0 RTD 13 87.24 R fD 28 9 RTD 14 86.48001 RlD 29 0 RTD 15 84.22 RTD 30 0 THE AVE R1D WITH WEIGHTING FACTORS IS = 83.47666 IN F

= 543.1667 IN R PRESS 1 63.64 PRESS 2 63.6 THE AVE PRESSURE IS = 63.62 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 75.32775 DEWPT 6 74.71591 DEWPT 2 76.91449 DEWPT 7 75.72443 DEWPT 3 74.3999 DEWPT 8 77.35153 DEWPT 4 75.J4791 DEWAT 9 /6.01355 DEWPT 5 75.81184 DEWPT 10 71.85168 THE AVE DEWPOINT WI rH WEIGHTING FACTORS IS = 75.26327 THE PWV IS = 4332948 PSIA THE MASS WEIGHT IS = 92622.109375 LBM

BNUNSWICK S1EAM ELECTRIC PLANT UNIT 2 1986 ILRT

SUMMARY

Ok ItRT MFASURED D4TA

        • VERIFICATION ILHT TEST ****

READING TAKEN Al TIME P'RIOD : 1015 DATE : 05-05-1986 R fD 1 86.01 RTD 16 84.08999 RTD 2 86.44 RTD 17 84.37 RTD 3 89.98001 RfD 18 83.95 RTD 4 89.58 RTD 19 79.64 RTD 5 90.76 RTD 20 78. J5 RTD 6 91.47 Rl D 21 78.26 RTD 7 90.48001 R FD 22 78.72 RTD 8 90.38 RTD 23 78.92 RTD 9 89.7 RTD 24 79.43 RTD 10 90.64 RTD 25 0 RTD 11 88.6 R fD 26 0 RTD 12 88.61 RTD 27 0 RTD 13 87.24 R fD 28 0 RTD 14 86.16001 RTD 29 0 RTD 15 84.26 R fD 30 0 THE AVE RTD WITH WbIGHTING FACTORS IS = 83.47758 IN F

= 543.16/6 IN R PRESS 1 63.635 PRESS 2 63.598 THE AVE PRESSURE IS = 63.6165 PSIA DEWCELLS WERE CONVERTED (D DEWPOINT DEwkT a 75.ssa*d unwPr b 74.93778 DEWPT 2 76.47746 DEWPT 7 75.72443 DEWPT 3 74.3999 DEWPT 8 77.35153 DEWPT 4 75.34791 DEWPT 9 76.01355 DEWPT 5 75.59669 DEWPT 10 71.85168 THE AVE DEWPOINT WITH WEIGHTING FACT 0HS IS = 75.24841 THE PWV IS = .4330806 PSIA THE MASS WEIGHT IS = 92617.1328185 LBM

BRUNSW3CK STEAM ELECTRIC PLANT UNIT 2 1986 ILRT

SUMMARY

OF ILRT MEASURED DATA

        • VERIFICATION ILRT TEST ****

READING TAKEN AT TIME PERIOD : 1030 DATE 05-05-1986 RfD 1 86.01 RfD 16 84.08999 RTD 2 86.44 RTD 17 84.41001 R fD 3 89.98001 RfD 18 83.95 RTD 4 89,54 R1 D 19 79.64 RTD 5 90.76 R fD 20 /8.35 RTD 6 91.47 R1 D 21 78.26 RTD 7 90.48001 RTD 22 78.72 RTD 8 90.38 Rl D 23 78.92 RTD 9 89.7 R fD 24 79.39 RTD 10 90.6 RTD 25 0 RTD 11 88.6 R fD 26 0 RTD 12 88.61 RTD 27 0 RTD 13 87.24 R fD 28 9 RTD 14 86.12 RTD 29 0 RTD 15 84.26 RfD 30 0 THE AVE RTD WITH WEIGHTING FACTORS IS = 83.47556 IN F

= 543.1655 IN R PRESS 1 63.628 PRESS 2 63.594 THE AVE PRESSURE IS = 63.611 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT i 75.09245 utwei 6 /4. v4 / /a DEWPT 2 /6.69261 DEWPT 7 75. /2443 DEWPT 3 74.3999 DEWPT 8 77.12965 DEWPT 4 75.34791 DEWPT 9 76.01355 DEWPT 5 75.59669 DhWPT 10 71.85168 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.23561 THE PWV IS = .432896 PSIA THE MASS WEIGHT IS = 92609.703125 LBM

~

BHUNSWICK S1EAM ELECTRIC PLANT UNIT 2 1986 ILRT

SUMMARY

Ok II.RT MFASURED DATA

        • VERIFICATION ILRT TEST ****

READING TAKEN AT TIME PERIOD : 1945 DATE : 05-05-1986 RTD 1 86.01 R fD 16 84.08999 RTD 2 86.48001 RTD 17 84.41001 RTD 3 89.98001 R fD 18 83.95 RTD 4 89.54 R1 D 19 79.6 RTD 5 90.76 RTD  ;<0 /8.39 RTD 6 91.47 R1 D 21 78.26 RfD 7 90.44 R fD 22 78.68 RTD 8 90.33999 Rl D 23 78.92 RfD 9 89.7 R fD 24 79.39 RTD 10 90.6 RTD 25 0 RTD 11 88.56 R fD 26 0 R1 D 12 88.61 RTD 27 0 RTD 13 87.24 RTD 28 0 '

RTD 14 86.12 RTD 29 0 RfD 15 84.26 R fD 30 0 THE AVE RTD WITH WEIGHTING FACTONS IS = 83.47194 IN F

= 543.162 IN R PRESS 1 63.623 PRESS 2 63.59 THE AVE PHESSURE IS = 63.6065 PSIA DEWCELLS WERE CONVERTED f0 DEWPOINT DdWPT i 75.Gv243 Dewri e to.lovbs DEWAT 2 /6.69261 DEWPT 7 75.72443 DEWPT 3 74.3999 DEWPT 8 77.56668 DEWPT 4 75.12604 DEWOT 9 75.79166 DEWPT 5 75.59669 DEWPT 10 71.86168 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.29653 THE PWV IS = .4337757 PSIA THE MASS WEIGHT IS = 92602.421875 LBM

BRUNSWICK SlEAM ELECTRIC PLANT UNIT 2 1986 ILHT

SUMMARY

OF It RT MF ASURED DATA

        • VERIFICATION ILHT TEST ****

READING TAKEN A1 TIME PERIOD : 1100 DATE : 05-05-1986 RfD 1 86.01 R fD 16 84.08999 RTD 2 86.48001 RTD 17 84.45 RTD 3 89.98001 RfD 18 113. 9 5 RTD 4 89,5 RTD 19 79.6 RTD 5 90.72 RTD HO /8.35 RTD 6 91.47 RTD 21 78.26 RTD 7 90.44 RfD 22 /8.68 RTD 8 90.33999 Rl D 23 78.92 RTD 9 89.7 RfD 24 /9.39 RTD 10 90.56 Rl D 26 0 RTD 11 88.56 RfD 26 0 RTD 12 88.61 Rl D 27 0 RfD 13 67.24 RfD 28 0 RTD 14 86.08 RTD 29 0 RfD 15 84.3 R fD 30 0 THE AVE RTD WITH WhIGHTING FACTORS IS = 83.47176 IN F

= 543.16t8 IN R PRESS 1 63.62 PRESS 2 63.584 ,

THE AVE PRESSURE IS = 63.602 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 73.G4243 DEWPT 6 75.i5965 DEWPT 2 76.91449 DEWPT 7 75./2443 DEWPT 3 74.3999 DhWPT 8 77.36153 DEWPT 4 75.34791 DEWPT 9 76.01355 DEWPT 5 75.81184 DEWPT 10 71.85168 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.35333 THE PWV IS = .4345983 PSIA THE MASS WEIGHT IS = 92594.6484375 LBM

BHUNSWICK STEAM ELECTRIC PLANT UNIT 2 1986 ILRT

SUMMARY

Oh If.RT MFASURED DATA

        • VERIFICATION ILRT TEST ****

READING TAKEN A1 TIME PERIOD : 1115 DATE : 05-06-1986 RfD 1 26.01999 RfD 16 84.08999 RTD 2 86.48001 RTD 17 84.45 RTD 3 90.01999 R fD 18 83.99 RTD 4 89,54 RTD 19 79.6 RTD 5 90.72 RTD 80 78. J5 RTD 6 91.47 RTD 21 78.26 RTD 7 90.44 RTD 22 /8.68 RTD 8 90.3 RfD 23 78.92 RTD 9 89.66001 RTD 24 79. J3 RTD 10 90.56 RTD 25 0 RTD 11 88.56 R fD 26 0 RTD 12 88.61 RTD 27 0 RTD 13 87.24 R fD 28 0 RTD 14 86.01 Rl D 29 0 RTD 15 84.3 R fD JO O THE AVE RTD WITH WFIGHTING FACTORS IS = 83.47451 IN F

= 543.1645 IN R PRESS 1 63.617 PRESS 2 63.58 THE AVE PHESSURE IS = 63.59851 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DEMPT 1 7".00043 DLWPT O 70.15963 DEWPT 2 76.69261 DEWPT 7 75.72443 DLWPT 3 74.3999 DEWPT 8 77.12965 DEWPT 4 75.12604 DEWPT 9 76.01355 DEWPT 5 75.81184 DEWPT 10 71.85168 THE AVE DEWPOINT WIrH WEIGHTING FACTORS IS = 75.30622 THE PWV IS = .4339162 PSIA THE MASS WEIGHT IS = 92590.0625 LBM

BRUNSW8CK STEAM ELECTRIC PLANT UNIT 2 1986 ILRT

SUMMARY

O' ILRT MEASURED DATA

        • VERIFICATION ILRT TEST ****

READING TAKEN Al TIME PERIOD : 1130 D4TE : 05-06-1986 R fD 1 86.06 R fD 16 84.08999 RTD 2 86.51999 R1 D 17 84.49 RTD 3 89.94 R fD 18 83.99 RTD 4 89.54 Ri D 19 79.6 RTD 5 90.'72 RTD MO /8.J5 RTD 6 91.43 Rl D 21 78.26 RTD 7 90.44 R fD 22 78.68 RTD 8 90.33999 Rl D 23 78.92 RTD 9 89.66001 RTD 24 79.J9 RTD 10 90.51999 RT D 25 0 RTD 11 88.51999 R fD 26 0 RTD 12 68.61 R1 D 27 0 RTD 13 87.24 R fD 28 9 RTD 14 86.04 RTD 29 0 RTD 15 84.33999 RTD JO O THE AVE RTD WITH WEIGHTING FACTORS IS = 83.47828 IN F

= 543.1683 IN R PRESS 1 63.613 PRESS 2 63.575 THE AVE PRESSURE IS = 63.594 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT nLuoT 1 TA.e7e55 ngupT s 75,159ct DEWPT 2 77.12965 DEWPT 7 75.72443 DEWPT 3 74.3999 DhWPT 8 77.12965 DEWPT 4 75.34791 DEWPT 9 75.79166 DEWPT 5 75.81184 DhWPT 10 71.86168 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.30552 THE PWV IS = .4339065 PSIA THE MASS WEIGHT IS = 92582.8359375 LBM

BRUNSWZCK S1EAM ELECTRAC PLANT UNIT 2 1986 ILRT '

SUMMARY

OF I! RT MF ASURED DATA

        • VERIFICATION ILRT TEST ****

READING TAKEN AT TIME PERIOD : 1145 DATE : 05-05-1986 i

RTD 1 86.06 RTD 16 84.08999 RTD 2 86.51999 RTD 17 84.53 R fD 3 89.94 R fD 18 83.99 RTD 4 89.5 R1 D 19 79.6 R fD 5 90'.68 RTD MO /8. J5 RTD 6 91.43 RTD 21 78.26 RfD 7 90. 4 R fD 22 /8.72 RTD 8 90.3 R1 D 23 78.92

R fD 9 89.62 RfD 24 /3. J9 RTD 10 90.51999 RTD 25 0 RfD 11 88.51999 RfD 26 0 RTD 12 88.61 R1 D 27 0 RTD 13 87.24 R fD 28 9 RTD 14 86.01 RTD 29 0 RTD 15 84.38 R fD 30 0 THE AVE RTD WITH WEIGHTING FACTORS IS = 83.48263 IN F

= 543.1726 IN R PRESS 1 63.608 PRESS 2 63.572 THE AVE PHESSURE IS = 63.59 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 75.29943 DuHuT 5 75.15955 DEWPT 2 77.12965 DEWPT 7 75.72443 DEWPT 3 74.62178 DF.WPT 8 77.56668 DEWPT 4 75.J4791 DEWPT 9 75.79166 DEWPT 5 76.03371 DEWPT 10 71.86168 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.40504 THE PWV IS = .4353473 PSIA THE MASS WEIGHT IS = 92574.1171875 LSM

BNUNSWICK SlEAM ELECTRIC PLANT UNIT 2 1986 ILRT

SUMMARY

OF IlRT MFASURED DATA

        • VERIFICATION ILRT TEST ****

READING TAKEN Al TIME PERIOD : 1200 DATE : 05-05-1986 R rD 1 86.06 RTD 16 84.08999 RTD 2 86.51999 RTD 17 84.53 RTD 3 89.98001 RTD 18 83.99 RTD 4 89,5 RTD 19 79.6 RTD 5 90.68 RTD RO 78.35 RTD 6 91.43 RTD 21 78.26 RTD 7 90.'4 RfD 22 78.72 RTD 8 90.3 RTD 23 78.92 R fD 9 89.62 RfD 24 79.39 RTD 10 90.51999 R1 D 25 0 RTD 11 88.51999 RfD 26 0 RTD 12 88.57 Rl D 27 0 RTD 13 87.24 RfD 28 9 RTD 14 85.97 RTD 29 0 RTD 15 84.38 R fD JO O THE AVE RTD WITH WEIGHTING FACTORS IS = 83.48038 IN F

= 543.1705 IN R PRESS 1 63.604 PRESS 2 63.569 THE AVE PHESSURE IS = 63.5865 PSIA DEWCELLS WERE CONVERTED r0 DEWPOINT Dewvi 1 /s.ev243 DEWPT 6 75.15965 DEWPT 2 76.91449 DEWPT 7 75.72443 DEWPT 3 74.3999 DEWPT 8 77.12965 DEWPT 4 75.34791 DEWPT 9 75.79166 DEWPT 5 76.03371 DF.WPT 10 71.86168 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.34002 THE PWV IS = 4344056 PSIA l

THE MASS WEIGHT IS = 92570.75 LBM

BRUNSWICK S1EAM ELECTRIC PLANT UNIT 2 1986 ILRT

SUMMARY

OF Is.RT MFASURED D4TA

        • VdRIFICATION ILHT TEST ****

READING TAKEN Al TIME PERIOD : 1215 DATE : 05-05-1986 l

RfD 1 86.1 RTD 16 84.13 RTD 2 86.51999 RTD 17 84.61 RfD 3 89.9 RTD 18 84.03 RTD 4 89.54 RTD 19 79.6 RTD 5 90."68 RTD a0 78.35 RTD 6 91.43 RTD 21 78.26 RTD 7 90.4 RfD 22 78.72 RTD 8 90.3 RTD 23 78.92 RTD 9 89.62 R fD 24 79.39 RTD 10 90.51999 R1D 25 0 RTD 11 88.51999 RfD 26 0 RTD 12 88.57 RTD 27 0 RTD 13 87.24 R fD 28 9 RTD 14 85.97 RTD 29 0 RTD 15 84.38 R fD Je 0 THE AVE R1D WITH WEIGHTING FACTORS IS = 83.48991 IN F

= 543.tB IN R PRESS 1 63.6 PRESS 2 63.565 THE AVE PRESSURE IS = 63.5825 PSIA DEWCELLS WERE CONVERTED f0 DEWPOINT i

DEWPT 1 75.09343 DEWPT 6 75.15966 DEWPT 2 76.69261 DEWAT 7 75.72443 DEWPT 3 74.62178 DEWPT 8 77.56668 DEWPT 4 75.34791 DEWPT 9 76.01335 DEWPT 5 76.24887 DEWPT 10 71.85168 l THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.4393 I

THE PWV IS = .4358446 PSIA THE MASS WEIGHT IS = 92561.140625 LBM l

l l

9 - , . . - . w . - , ,

BRUNSW3CK STEAM ELECTRIC PLANT UNIT 2 1986 ILRT

SUMMARY

OF II.RT MEASURED DATA

        • VERIFICATION ILRT TEST ****

READING TAKEN Al TIME PERIOD : 1230 DHTE : 05-Ob-1986 RfD 1 86.1 RTD 16 84.13 RTD 2 86.51999 R1 D 17 84.61 R r0 3 89.98001 R fD 18 84.03 RTD 4 89.5 Rl D 19 79.6 RTD 5 90'68 . RTD H0 /8.J9 RTD 6 91.39 R1 D 21 78.26 RfD 7 90.4 RTD R2 /8. /2 RTD 8 90.3 R1 D 23 78.92 RTD 9 89.62 RfD 24 79.39 RTD 10 90.51999 R1 D 25 0 RTD 11 88.48001 R fD 26 0 RTD 12 88.57 RTD 27 0 RTD 13 87.24 R fD 28 0 RTD 14 86.01 RTD 29 0 RTD 15 84.42 R fD 30 0 THE AVE RTD WITH WEIGHTING FACTORS IS = 83.49454 IN F

= 543.1846 IN R l

PRESS 1 63.595 PRESS 2 63.56 THE AVE PRESSURE IS = 63.5775 P8IA DEWCELLS WERE CONVERTED TO DEWPOINT DtWPT 1 75.09243 DEWPT 6 75.37481 DEWPT 2 76.91449 DEWPT 7 75.72443

! DEWPT 3 74.62178 DFWPT 8 77.35153 l

DEWPT 4 75.34791 DEWPT 9 76.01355 DhWPT 5 75.81184 DhWPT 10 71.85168 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.41158 THE PWV IS = .4354426 PSIA l

l l

THE MASS WEIGHT IS = 92553.6171875 LBM l

l l

BHUNSW8CK SlEAM El.ECTRIC PLANT UNIT 2 1986 ILRT

SUMMARY

OF Is .RT MFASURhD DATA

        • VERIFICATION ILRT TEST ****

READING TAKEN A1 TIME PERIOD : 1245 DATE : 05-05-1986 RTD 1 86.1 RTD 16 84.13 RTD 2 86.56 RTD 17 84.66 R rD 3 89.94 RTD 18 84.03 RTD 4 89.46 Rl D 19 79.6 R fD 5 90.64 RTD MO /8.J5 RTD 6 91.39 Rl D 21 76.26 RTD 7 90. J6 R fD 22 78. /2 '

RTD 8 90.26 Rl D 23 78.92 RTD 9 89.58 RfD 24 /9.39 RTD 10 '90.48001 RlD 25 0 RTD 11 88.48001 RID 26 0 RTD 12 88.57 Rl D 27 0 RTD 13 87.24 RfD 28 0 I RTD 14 86.04 RTD 29 0 RTD 15 84.42 R fD 30 0 THE AVE RTD WITH WEIGHTING FACTORS IS = 83.4905 IN F

= 543.1805 IN R PRESS 1 63.59 PRESS 2 63.555 THE AVE PRESSURE IS = 63.5725 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT unww 1 /s.11239 DFWPT 6 76.37481 DEWPT 2 77.12965 DEWPT 7 75./2443 DEWPT 3 74.62178 DhWPT 8 77.35153 DEWPT 4 15.J4791 DEWPT 9 75.79166 DEWPT 5 76.03371 DEWPT 10 71.8bl68 THE AVE DEWPOINT WIrH WEIGHTING FACTORS IS = 75.43316 THE PWV IS = .4357561 PSIA THE MASS WEIGHT IS = 92546.63125 LBM l

l

BNUNSWTCK SlEAM ELECTRIC PLANT UNIT 2 1986 ILRT SUMMAHY OF II.RT MFASURdD DATA

        • VERIFICATION ILRT TEST ****

READING TAKEN Al TIME PkRIOD 1300 DATE : 05-06-1986 RTD 1 86.1 RTD 16 84.13 RTD 2 86.51999 RTD 17 84.65 RTD 3 89.86 RTD 18 84.07 RTD 4 89.42 RTD 19 79.6 RTD 5 90.64 RTD 20 78.J5 RTD 6 91.39 Rl D 21 78.26 RTD 7 90.36 RTD 22 78.68 RTD 8 90.26 RTD 23 78.92 RTD 9 89.68 R fD 24 /9. J9 RTD 10 90.44 Rl D 25 0 RfD 11 88.48001 R fD 26 0 RTD 12 88.57 RTD 27 0 RTD 13 87.24 RfD 28 9 Rl D 14 86.01 Rl D 29 0 RTD 15 84.46 RfD Je 0 4

THE AVE RTD WITH WEIGHTING FACTGHS IS = 83.48824 IN F

= $43.1783 IN R 1

PRESS 1 63.585 PRESS 2 63.55 THE AVE PRESSURE IS = 63.5675 PSIA DeWCELLS WERE CONVERTED TO DEWPOINT DhWPT 1 75.09243 DEWPT 6 75.37481 DEWPT 2 76.69261 DEWPT 7 75.72443 DEWPT 3 74.62178 DEWPT 8 77.35153 i DEWPT 4 75.J4791 DEWPT 9 75.79166 l DEWPT 5 76.03371 Db.WPT 10 71.86168 l

THE AVE DEWoOINT WIfH WEIGHTING FACTOHS IS = 75.41073 THE PWV IE; u .4354296 PSIA

( THE MASS WEIGHT (S = 92540.05468/5 .LSM l

_---y._.-w q.- _,g -- ---.--,,y,,--yyy,-.w.-,ww-

BHUNSW8CK S1EAM ELECTRAC PLANT UNIT 2 1986 ILRT

SUMMARY

OF ItRT MkASURED DATA

        • VERIFICATION ILHT TEST ****

READING TAKEN A1 TIME P*RIOD : 1315 DATE : 05-05-1986 R fD 1 86.1 RTD 16 84.13 RTD 2 86.56 RTD 17 84.69 RTD 3 89.9 RTD 18 84.07 RTD 4 89.46 RTD 19 79.6 RTD 5 90'.64 RTD MO /8.35 RTD 6 91.39 Ri D 21 78.26 RTD 7 90.36 RTD 22 78./2 RTD 8 90.26 RTD 23 78.92 RTD 9 89.58 R TD 24 79.39 RTD 10 90.44 RTD 25 0 RTD 11 88.44 RfD 26 0

~RTD 12 88.53 RTD 27 0

'RTD 13 87.24 RfD 28 0 RTD 14 86.01 RTD 29 0 RTD 15 84.46 RfD JO O THE AVE RTD WITH Wh!GHTING FACTORS IS = 83.49213 IN F

= 543.1821 IN R PRESS 1 63.582 PRESS 2 63.545 THE AVE PRESSURE IS = 63.5635 PSIA DEWCELLS WERE CONVERThiD TO DEWPOINT DEWPT 1 75.09243 DEWPT 6 75.37481 DEWPT 2 /6.91449 DEWAT 7 75.72443 DeWPT 3 74.62178 DhWPT 8 77.12965 DEWPT 4 75.5698 DEWPT 9 75./9166 DEUPT 5 76.03371 DEWPT 10 71.8bl68 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.4112 THE PWV IS = .4354371 PSIA THE MASS WEIGHT (S = 92533.5234375 LBM

3 l

BRUNSW8CK S1EAM ELECTRIC PLANT UNIT 2 1986 ILRT

SUMMARY

OF It.RT MEASURED DATA

        • VERIFICATION ILRT TEST **** s READING TAKEN Al TIME PHRIOD 1330 D4TE : 05-05-1986 RfD 1 86.14 RTD 16 84.17 RTD 2 86.56 RTD 17 84.73001 R fD 3 89.9 RfD 18 84.11 RTD 4 89,42 RTD 19 79.6 RfD 5 90.64 RTD MO /8.35 RTD 6 91.39 R1D 21 78.26  !

RTD 7 90.36 R fD 22 /8.72 RTD 8 90.26 R1 D 23 78.92 RTD 9 89.54 R fD 24 79.J9 RTD 10 90.48001 RTD 25 0 ,

RTD 11 88.44 R fD 26 0 RTD 12 88.53 RTD 27 0 RTD 13 87.24 R fD 28 9 RTD 14 86.01 RTD 29 0 RTD 15 84.5 R fD 30 0 THE AVE RTD WITH WEIGHTING FACTORS IS = 83.50167 IN F

= 543.19L6 IN R I

PRESS 1 63.58 PRESS 2 63.543 '

THE AVE PHESSURE IS = 63.5615 PSIA

DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 75.32775 DEWPT 6 75.37481 DEWPT 2 76.91449 DEWPT 7 75./2443 DEWPT 3 74.62178 DEWPT 8 77.1296b DEWPT 4 75.5698 DEWPT 9 75./9166 DEWPT 5 76.03371 DEWPT 10 71.86168 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.4236 THE PWV IS = .4356173 PSIA THE MASS WEIGHT IS = 92528.703125 LBM

BRUNSW8CK SlEAM ELECTRIC PLANT UNIT 2 1986 ILRT

SUMMARY

OF ItRT MEASURhD DATA

        • VERIFICATION ILRT TEST ****

READING TAKEN AT TIME PERIOD : 1345 DATE : 05-05-1986 RTD 1 86.14 RTD 16 84.17 RTD 2 86,56 RTD 17 84.76999 RTD 3 89.86 R fD 18 84.11 RTD 4 89.42 Rl D 19 79.6 RfD 5 90.64 RTD HO 78.35 RTD 6 91.3b Rl D 27 78.26 RTD 7 90.36 R fD 22 /8. /2 RTD 8 90.26 RTD 23 78.92 RfD 9 89.54 R fD 24 79.39 RTD 10 90.4 RTD 25 0 RTD 11 88.44 R fD 26 0 RTD 12 88.53 RTD 27 0 RTD 13 87.24 RfD 28 9 RTD 14 86.04 RTD 29 0 RTD 15 84.54 R fD J0 0 THE AVE RTD WITH WEIGHTING FACTORS IS = 83.50353 IN F

= 543.1936 IN R PRESS 1 63.578 PRESS 2 63.54 THE AVE PHESSURE IS = 63.559 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 75.09243 DEWPT 6 76.37481 DEWPT 2 7C.91449 DEWAT 7 75.72443 DEWPT 3 74.62178 DeWPT 8 77.1296b DEWPT 4 75.5698 DEWPT 9 75.79166 DEWPT 5 76.24887 DEWPT 10 71.85168 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 75.44351 THE PWV IS = .4359057 PSIA THE MASS WEIGHT IS = 92524.296875 LBM

BHUNSW8CK STEAM ELECTRhC PLANT UN8T 2 1986 ILHT

SUMMARY

OF IlRT MFASURED D4TA

        • VERIFICATION ILHT TEST ****

READING TAKEN A1 TIME PERIOD : 1400 D4TE : 05-06-1986 RTD 1 86.14 RTD 16 84.21 RTD 2 86.6 RTD 17 84.81 RTD 3 89.86 R rD 18 84.15 RTD 4 89.42 RTD 19 79.6 RTD 5 90'64

. RTD 20 18.35 RTD 6 91.35 RTD 21 78.26 R fD 7 90.36 R fD 22 78.72 RTD 8 90.22 RTD 23 78.92 R fD 9 89.54 R fD 24 79.39 RTD 10 90.4 RTD 25 0 RfD 11 88.4 R fD 26 0 RTD 12 88.53 Rl D 27 0 RTD 13 87.2 RfD 28 0 RTD 14 86.01 RTD 29 0 R fD 15 84.58 R fD 30 0 THE AVE RTD WITH WEIGHTING FACTORS IS = 83.5095 IN F

= 543.1995 IN R PRESS 1 63.572 PRESS 2 63.535 THE AVE PHESSURE IS = 63.5535 PSIA DEWCELLS WERE CONVERTED TO DEWPOINT DEWPT 1 75.32775 DEWPT 6 75.37481 DEWPT 2 77.12965 DEWPT 7 75.72443 DEWPT 3 74.62178 DEWPT 8 77.35153 DEWPT 4 75.5698 DEWRT 9 75.79166 DEWPT 5 76.24887 DhWPT 10 71.85168 THE AVE DEWPOINT WIrH WEIGHTING FACTOHS IS = 75.48976 THE PWV IS = .4365776 PSIA THE MASS WEIGHT IS = 92514.234375 LBM l

l

e e

APPENDIX F EO M ANALYSIS I

1 t

}

r

-- ,r - - -

TYPE B ANALYSIS MINIMUM PATH ANALYSIS As As Pen As As Pen Valves Found Left Leakage Found Left Savings NOTES lOOA ELECTRICAL 0 0 0 0 0 100B ELECTRICAL 0 0 0 0 0 100C ELECTRICAL 0 0 0 0 0 103A ELECTRICAL 0 0 0 0 0 100D ELECTRICAL 0 0 0 0 0 lO4D ELECTRICAL 0 0 0 0 0 102A ELECTRICAL 0 0 0 0 0 104B ELECTRICAL 0 0 0 0 0 '

i 102B ELECTRICAL 0 0 0 0 0 4

lOlA ELECTRICAL 0 0 0 0 0 l lOIC ELECTRICAL 0 0 0 0 0 l lO5D ELECTRICAL 0 0 0 0 0 7

105E ELECTRICAL 0 0 0 0 0 lO2C ELECTRICAL 0 0 0 0 0 lO4C ELECTRICAL 0 0- 0 0 0 j 105H ELECTRICAL 0 0 0 0 0 3

105G ELECTRICAL 0 0 0 0 0 102E ELECTRICAL 0 0 0 0 0

! 104E ELECTRICAL 0 0 0 0 0 j LOOP ELECTRICAL 0 0 0 0 0 lOOE ELECTRICAL 0 0 0 0 0 lOOG ELECTRICAL 0 0 0 0 0 j lOOH ELECTRICAL 0 0 0 0 0 1

IO2P ELECTRICAL 0 0 0 0 0 104F ELECTRICAL 0 0 0 0 0 lO3B ELECTRICAL O O O O O 104G ELECTRICAL 0 0 0 0 0 lO2H ELECTRICAL 0 0 0 0 0 i

i f

1 a

f

,l S

E T

O N

s g

S n I i 00 0000 0000 O0O OOO O0O O00 00O S v Y a L S A

N A

H t T sf 00 0000 0000 O0O OOO O0O O00 00O A Ae P L M

U M

I N d I n M su 00 0000 0000 O0O OOO O0O O00 00O Ao F

e g

na ek P a S e I L S

Y L

A N t A sf 00 0000 0000 O0O OOO O0O O00 00O Ae B L E

P Y

T d

n su 00 0000 0000 O0O OOO O0O O00 00O Ao F

K H s LL LLLL LLLL HLN C G GG e AA AAAA AAAA CAA TH LN GGG GNN v CC CCCC CCCC TEL ACS SAI NNN NI I l I I I I I I I I I I ASB HTU UER I I I I RR a RR RRRR RRRR H AR RS RRR R V TT TTTT TTTT RD DHD O O OO-CC CCCC CCCC TEH H I I D - O0O O-EE LL EE EEEE LLLL EEEE EEEE LLLL EEEE PN QI W ELD WRD '.

DCS

'.E4 A9 NHV VVV

- - - - 67 S67 91 1 VVV JK FDCB BCAD A B n 55 1 l 5S 2222 0 0 5 0 55 e 00 0O0O 3333 0 0 - B 052 600 P 11 1l1l 2222 1 23 462 2 3 222 222

.. .. _ _. . _ . . . _ _ __ . _. . . _ . . . _ . _ _ , . . . _ . . _ m _ _ ._. .

i j TYPE C ANALYSIS MINIMUM PATH ANALYSIS AS- AS PEN AS AS PEN VALVES FOUND LEFT LEAKAGE FOUND LEFT SAVINGS NOTES 3B CAC-49 CAC-50 -1.278 1.278 .639 .639 0 Tested in parallel 7A B21-F022A l B21-F028A 2.924 0 See Note'7 4 7B B21-F022B B21-F028B 2.449 5.851 See Note 7 7C B21-F022C

, B21-F028C 0 0 See Note 7 7D B21-F022D B21-F028D 6.422 6.502 See Note 7

j. 8 B21-F016 Tested in parallel

, B21-F019 .691 .716 .346 .358 0 B21-F010A WNP O 9A B21-F032A E41-F006 27.438 0 27.438 0 27.438 i

B21-F010B WNP O i E51-F013

{ B21-F032B

  • l 9B E51-V88 N/A 1.814 49.299 0 49.299 See Note (a)

} E51-F013

  • i B21-F032B G31-F039 WNP N/A G31-F042 47.485 0 10 E51-F007 E51-F008 5.497 0 2.749 0 2.749 Tested in parallel

! 11 E41-F002 l E41-F003 0 0 0 0 0 Tested in par.allel 12 Ell-F008 Tested in parallel Ell-F009 8.721 0 4.361 0 4.361 13A Ell-F015A 5.308 3.056 Ell-F017A 0 6.890 0 3.056 0

! 13B Ell-F015B WNP O I Ell-FOl7B WNP O WNP O >L a

i E

i f

TYPE C ANALYSIS MINIMUM PATH ANALYSIS AS AS PEN AS AS PEN VALVES FOUND LEFT LEAKAGE FOUND LEFT SAVINGS NOTES 14 G31-F001 G31-F004 0 4.35 0 2.18 O Tested in parallel 16A E21-F004A .331 2.255 E21-F005A O 5.339 0 2.255 0 16B E21-F004B O O E21-F005B 6.983 2.088 0 0 0 17 Ell-F022 Tested in parallel Ell-F023 2.242 2.242 1.121 1.121 0 -

18 G16-F003 4 G16-F004 24.957 O 12.479 O 12.479 Tested in parallel 19 G16-F019 G16-F020 0 0 0 0 0 Tested in parallel 23 RCC-V52

& 24 RCC-V28 1.125 1.125 .563 .563 O Tested in parallel CAC-V6, V15 Tested in parallel V-4,V-5 WNP 8.09 4.05 4.05 O See Note (b)

CAC-V17 X20B WNP 1.317 .659 .659 O See Note (c)

25 CAC-V16

& X20A 20.782 0 0 0 0 See Note (d) 205 160,162,170 0 0 NA NA NA .New Valves i 171,163,161 0 2.624 NA NA NA New Valves 55,56 1.308 1.308 NA NA NA CAC-V9 Tested in parallel CAC-VIO 26 CAC-V23 32.482 5.463 16.241 2.732 13.509 35A TIP-V1 O O O O O I

l l l e e e l l l l l l a a a r r r a a a) p p pe 3 3 3 3 ( 4 4 3 4 n n e e n i i e e e e v v ie e e e e t t t t l l t t t t t d d o o o o a a do o o o o S e e N N N N V V eN R N N N E t t t T s s e e e e w w se e e e e O e e e e e e e e ee e e e e N T T S i t S S N N TS S S S S S

G S N I I 0 0 0 0 0 O O 0 O O 0 OO S V A A A A Y A N N N N A A A A L S N N N N A

N A

7 2 8 2 H T 8 3 1 5 T SF 7 0 0 5 5 O O 0 A A A A O OO 1 A A A A OO A AE N N N N N N N N P L 2 M

U M

I N D I N 7 2 7 2 M SU 8 0 0 3 0 O O 0 O O 5 OO AO 7 5 4 A A A A 1 A A A A F N N N N N N N N 2

E G

NA EK PA S E I L S

Y L

A N T 7 2 6 3 3 6 1 A SF 8 0 0 3 2 O O 5 O 0 0 O O O 0 O O O O O 0 7 0 O 0 0 O O O 5 AE 7 5 0 9 3 0 2 C L 2 1 E

P Y

T D

N SU AO F 7 0 0 2 3 O O 9 O 0 3 4 3 O O 1 O 3 O 0 O 0 0 O O O 1 8 3 1 0 7 5 3 7 9 9 5 7 5 8 5 7 2 3 3 7 6 2 2 1 1 4 3 2 1 4 3 2 B C A C A E F A - B - D E -

_ S 0 1 3 3 7 7 1 9 1 1 9 9 9 9 9 5 9 E K 0 6 4 4 3 3 3 1 3 1 6 2 0 0 0 0 0 0 0 V h AA BB 2 2 0 0 0 0 5 2 4 2 2 6 2 4 2 4 2 2 4 L C 61 61 6 7 1 1 F F F F 2 1 3 1 1 2 90 1 4 1 4 1 1 4 A l 2 1 2 O 0 - - - - - - 5 - - - - 5 l 2 - - - - - - - 2 4 V 2 3 4 b0 00 O 0 V V V V V V - V V V V - O0 V V V V V V V 2 2 V V V N FF FF F F S S; S S S V S S S S V FF S S S S S S S V V

- - - - - - - - - - - - - - - - S - - - - S - - - - - - - - - - -

P P P P ll ll 1 1 C C l l l l - C C C C - 22 C C C C C C C 2 2 I I I I l l ll 4 4 A A l l l l A A A A A A 3 3 A A A A A A A 3 3 T T T T EE EE C C C C E E E E I C C C C I BB C C C C C C C B B N B C D E A B B A B C D A E F E A B D E A E 5 5 5 5 9 9 2 9 l I l l 2 4 4 5 6 7 7 7 0 2 P 3 3 3 3 3 3 4 4 S S S S 5 5 5 5 5 5 5 5 6 6

3 3 3 3 4 4 4 3 e e 4 3 3 3 3 e e e e v e e e e v e e e t t t t l t t t t l t t e e o o o o a o o o o a t t t S N N N N V N N N N o o o o o E V N N N N N T

O eeeew e e e e e e e e e w e e e e e N e e e e e e S S S S N S S S S N e e e e S S S S S S

G S N 7 I I 0 S V 0 0 6 O O Y A A A A A 5 L S N N N N A

N A

N A

N A

N 6 L*

A A A A A A N N N N N N

A H T T SF A A A A 0 A A A A AE N N N N N 0 0 A O O O P L N N N A A A A A N N N N N M

U M

I N D I N 7 M SU 0 AO A A A A 0 0 6 P O ,

F A A A A 5 N A A N N N N N N N N W A A A N N N N N 6

E G

NA EK PA S E I L S

Y L

A N T 9 A SF O O 0 O 0 4 0 0 0 0 0 O O 0 O O O 0O 6 AE 2 O O O 4 0 O 0 C L 6 E

P Y

T D

N SU AO F 8 4 5 1 0 9 0 0 0 0 0 O 0 O 6 0 7 1 4 O 7 P 0O O O OO 0 O 7 5 8 6 8 2 6 N 7 5 W 6 2

6 8 4 3 2 D B D B A - B - C - E B C B C 1

A - C S 7 3 3 7 7 0 7 0 7 0 7 0 5 0 5 2 2 D B C E 3 4 4 3 1 2 1 2 1 2 1 2 6 2 4 8 0 8 8 9 9 V 0 0 0 O 6 2 4 2 4 2 4 2 2 2 2 2 1 1 1 1 1 1 1 L 2 4 2 2 2 5 2 4 2 2 F F F F 2 1 4 1 4 1 4 1 1 1 3 1 1 1 2 2 A - - - - - - - - - - - - - -

2 1 4 1 1 1 1 V V V V V - V V V V V - 02 5 - - - - - -

V V V V V V V V 33 V S S S S V S S S S S S S S S S S S S VV V- SV V V S

V V

- - - - S - - - - - - - - - - - - - - - S - S- S- S S l l l l - C C C C C C C C C C C S S 22 - C C C -

C l l l l A A A A A A A A A A A A X X 33 A A A A 1 C E E E E I C C C C C C C C C C 4 A A C R R BB I C C C E C C N AB C D A B C E B CB C A D6A6 0/0/0C /6D6B 0/ 0/6C E 88 8 8 1 3 3 3 3 P 666 6 7 7 7 6 67 7 83 7 7 77 7 7 782A2A2A2B2 B

) )

(

D D

(

A B 6 6 0 0 l l 2 2 e e l l n n l l e e a a P P r r h h ap a

p

)

f 3 3 t 3 t 4 5 5 (

i i n n t

e t

ew tew t e e t t e i i e t

o od od o o o d d o S N N e N e N N N e e N E t t t t T e es es e e e s s e O e ee ee e e e e e e N S ST ST S S S T T S S

G S N I I 0 O O O 0 S V Y A A A A A A A L S N N N N N N A

N A

9 H T 2 T SF 0 O O O 7 A AE A A A A A A P L N N N N N N 2 M

U M

I N D I N 9 M SU 2 AO A A A A A A 7 F N N N 0 O N N N O O 2

E G

NA EK PA S E I L S

Y L

A N T 4 5 5 6 6 1 7 A SF 0 0 0 O 0 0 O O O O O 0 O 6 1 0 9 0 0 O O 5 AE 8 2 6 1 5 1 4 C L 1 1 5 E

P Y

T D h h N t t SU iA iB AO w1 w1 P F 0 O 0 0 O O 8 O P 1 7 P 5 1 5 0 6 1 0 O O N 1 N d2 9 N 6 d2 8 9 0 W 8 W e 6 W 6 e 4 5 1 t . t .

1 sn 6 1 sn 3 ee ee TP TP 1

D D D A -

S 9 0 1 6 7 8 9 3 9 E 1 2 2 8 8 8 8 1 0 V 2 2 2 1 1 1 1 2 4 A A A A B B B B AA BB L 1 1 1 4 4 4 4 1 4 7 l 4 5 7 l 4 5 9 7 2 9 78 78 10 A - - - - - - - - - 0 l 2 2 0 l 2 2 2 9 1 1 22 22 04 V V V V V V V V V V 0 0 0 0 0 O 0 0 0 0 0 0 00 00 00 S S S S S S S S S F F F F F F F F F F F F FF FF FF 1 1 1 S S S S C C l l l l l l l l l l 1 1 ll ll 11 4 4 4 X X X X A A l l l l l l l l l l 4 5 ll ll 55 E E E R R R R C C E E E E E E E E E E E E EE EE EE A B A B N 6D 6D 6D 9B 9D 9A 0 0 1 1 2 E 0/ 0/ 0/ 0/ 0/ 0/ 1 1 1 1 1 P 2B2C2D2A 2 A 2B 2 2 2 2 2 il l l

I l l l l e e e e l l l l l l l l a a a a r r r r

)

g a

p a

p a) ph a) pi 5 ( ( ( 5 5 6 6 6 6 4 4 n n n n e e e i i i e ie e e e e e e e e v t t t t t t t t t t t t l o o d d do do o o o o o o o o a S N N e e eN eN N N N N N N N N V E t t t t T e e s s se se e e e e e e e e w O e e e e ee ee e e e e e e e e e N S S T T TS TS S S S S S S S S N S

G S N 9 6 I I 0 0 2 8 0 O 0 O S V 4 3 Y A A A A A A A A A A A L S N 1 6 N N N N N N N N N A

N A

7 1 6 H T 7 0 5 T SF 1 1 6 0 0 O 0 O A AE A A A A A A A A A A P L N N N N N N N N N N M

U M

I N D I N M SU 7 1 5 6 AO A 7 0 8 8 F N 1 1 0 3 0 A A O A A 0 A A O A A A N N N N N N N N N 2 6 E

G NA EK PA S E I L S

Y L

A N T 0 4 2 1 7 4 8 5 1 A SF 0 0 O 0 0 O 5 5 0 01 0 0 0 O 0 O 8 2 0 9 8 O O O O 1 0 AE 8 3 3 2 3 5 6 1 2 5 C L 1 1 8 8 6 1 E 1 P

Y T

D N

SU AO P P F 0 0 O 6 0 O N 4 2 0 2 0 0 O 8 0 O 3 4 0 N 5 O 7 6 2 2 0 0

8 8

2 W 5 3

0 7 7 7 3 2 W 8 5 1 0 9 2 1 7 6 3 6 2 6 1 1 4 5 4 2 1 7 8 1 2 4 3 8 1 1 4 1 1

2 2 B F S 0 7 1 1 50 4 E F, 1 3 4 1 4 4 V A B A B V, A A B B A B A B 2 5 2 5 3 L S 5 3 3 9 26 59 28 20 5 1 5 1 1 0 0 2 1 1 1 4 1 4 4 A S 5 O 0 0 1 4 66 77 2 02 24 1 3 1 3 3 2 2 4 0 0 - - - - -

V O 0 l 1 2 2 0 00 00 278 00 00 0 0 0 0 0 0 0 0 0 0 2 V V V V V F F F F V V F FF FF VVV FF FF F F F F F F F F F F 1 2 S S S S S

- - - - - - - - - - - - - - - - - - - - - - - - - - - - VV - - - - -

l l l l l l 1 11 11 CCC 1 1 1 1 1 1 1 1 1 l l 1 1 1 - - C C C C C l l l l l l 4 55 44 AAA 55 44 2 2 2 2 5 l l 4 2 2 DD A A A A A E E E E E E E EE EE CCC EE EE E E E E E E E E E E TT C C C C C A B A B A B B E A N 4 6 8 0 1 2 3 3 4 5 5 6 7 7 1 4 5 5 E 1 1 1 2 2 2 2 2 2 2 2 2 2 2 3 4 4 2 P 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2

NOTES General

1. All values are given in scfh.
2. The MPL assignment to penetrations that have valves tested in parallel is 1/2 the Type C value unless otherwise noted.
3. Valves do not receive containment isolation signal. These lines are required operable during normal operation, shutdown and accident conditions to monitor critical parameters. Piping and instruments tested during Type' A test.
4. H 2-O y monitors are Seismic I designed and used post-accident to monitor containment atmosphere. Piping and monitors are tested during Type A test.
5. These lines are part of a closed, seismic qualififed loop that discharge back to containment below the minimum required torus water level. These penetrations do not constitute a potential atmospheric leak path.
6. These lines, which take suction below the min. torus water level, provide emergency cooling water to qualified closed systems which are built to Seismic I, Safety Class II standards. No potential atmospheric leak path exists.
7. Leakage from Main Steam Isolation Valves (MSIV) is considered a separate source term from containment leakage in the accident analyses.

Technical specification acceptance criteria for MSIV's is 11.5 scfh per valve which equates to 92 scfh for 8 MSIV's. The as found for all 8 MSIV's is 11.8 scfh.

NOTES Specific

a. B21-F032B tested with E51-F013 and G31-F039 prior to plant mod, G31-FL19 needed repair. E51-V88 replaced G31-F039.
b. Maintenance performed to outboard valves CAC-V4 and V15 only.
c. Maintenance performed to only CAC-V17.

4 NOTES (Continued)

d. Maintenance performed to only CAC-Vl6.
e. _ Maintenance performed to only B32-F020.
f. Maintenance performed to only E51-F001.
g. Maintenance performed to only E41-F049.
h. Plant mod installed V172 in series with CAC-V22 after CAC-V22 was tested in parallel with C.AC-V7 and.V8.
1. Maintenance performed to only E51-F028.

9 1

4 4

1 a

4 i

- . e -, - - - . - - - . , ..-.--,-m-.-,, -

, , - , - - - . - . - . - - - . - - _ , , , .-..v. .,

m-.. - -.r, __---.- --.-. ---% ,- r, m,-, ,,. - - - - - .-

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